دانشگاه اراک سلول و بافت 2228-7035 17 1 2026 03 21 Cloning and surface display of xylose dehydrogenase from Caulobacter vibrioides Via E.coli transmembrane protein YiaT کلون و بیان سطحی آنزیم زایلوزدهیدروژناز از کلوباکتر ویبریوئیدس متصل به پروتئین عرض غشایی Yia Tدر باکتری اشریشیا کلی 1 16 732547 10.66224/JCT.17.1.1 FA هانیه کرمی پور دانش آموخته کارشناسی ارشد، مجتمع آمایش و پدافند غیرعامل، دانشگاه مالک اشتر، تهران، ایران محمد جواد دهقان عصمت آبادی دانشگاه صنعتی مالک اشتر- مجتمع دانشگاهی پدافند غیرعامل-پژوهشکده علوم و فناوری زیستی 0000-0003-4961-4583 علی اصغر دلدار استادیار، مجتمع آمایش و پدافند غیرعامل، دانشگاه مالک اشتر، تهران، ایران 0000-0003-1894-8089 فاطمه بزرگمهر دانش آموخته کارشناسی ارشد، مجتمع آمایش و پدافند غیرعامل، دانشگاه مالک اشتر، تهران، ایران 0000-0002-7709-1604 Journal Article 2025 09 06 Introduction: Concern over fossil energy costs and environmental deterioration, along with energy security, has created a strong motivation for research and development of routes to provide sustainable, renewable fuels. In recent years, the use of biomass to produce highly valued chemicals has attracted widespread attention. lignocellulosic biomass, as a promising renewable resource for biofuel production, has distinct advantages in terms of economic and environmental aspects. The conversion of renewable raw materials to hydrocarbon fuels is an attractive alternative to fossil fuels from an economic and environmental point of view. The production process of lignocellulosic biomass mainly consists of biomass accumulation, biomass decomposition, simple sugars, and conversion of sugars to biofuel. One of the crucial steps in the economic success of lignocellulosic biofuels depends on the inhibition of competitive metabolism in microorganisms to achieve high productivity. To date, a growing focus is on the use of S. cerevisiae and E. coli as cell lines. These two cellular factories have the benefits that are well known. Aim: The organic compound D-1,2,4-Butanetriol is a valuable chemical with wide-ranging applications in various fields. The chemical synthesis routes for BT have many drawbacks. By genetically modifying microorganisms, the metabolic pathway for producing many substances, including BT, can be engineered. The organic compound D-1,2,4-butanediol (BT) is an important intermediate chemical widely used in fields such as pharmaceuticals, paper, polymer materials, and military applications. When D-xylose sugar is provided to the bacterium, it is first converted to an intermediate compound called xylonolactone. This compound itself slowly converts into xylonate through a non-enzymatic reaction. To produce xylonate, the engineered bacteria have received xylose and initially, by a dehydrogenase reaction by the xylose dehydrogenase enzyme, that converts it into an intermediate substance: xylonolactone. The xylonolactone is converted slowly and in a nonenzymatic reaction to xylonate. Xylonate is a five-carbon organic acid. Over the past few years, xylonate has been increasingly being considered as an important chemical due to its potential as an important chemical component. Xylonate has many applications that can be used in the food, chemical, and pharmaceutical industries. Specifically, xylonate can act as a precursor for the synthesis of D-1,2,4-Butanetriol and a decrease in concrete water. E.coli due to fast growth in cheap culture medium, having two enzymes for the bto synthesis and product production in lower 24 hours of fermentation was chosen as the target strain of genetic engineering and metabolism. This study aimed to clone and express xylose dehydrogenase from Caulobacter vibrioides in E.coli. Materials and Methods: At first, to access the bacterial gene sequence, the genome of the target bacterium was extracted. Then, to create a strain expressing the enzymes xylose dehydrogenase and xylonolactonase, the genes for these proteins were amplified from Caulobacter vibrioides CB1 and transferred to E. coli. For this purpose, the target genes were amplified using specifically designed primers via the Polymerase Chain Reaction (PCR) method and initially cloned into a pTZ57cloning vector and then subcloned into pET 26b expression vector. At the final step, the expression of the enzyme was assessed by SDS-PAGE, and the other confirmation was the reduction of NAD+ to NADH, which was used as an activity indicator of the enzyme, as investigated by a change in NADH absorbance at 340 nm. Results: Confirmatory tests were performed to ensure the presence of the gene in the vectors (using restriction enzymes and colony PCR for gene amplification). The expression and activity of the enzyme were analysed. The recombinant protein's presence was confirmed by SDS-PAGE for the xylose dehydrogenase gene, with a molecular weight of 52.2 kDa. The estimated recombinant protein expression levels were approximately 25%. Conclusion: The objective of this research was solely to establish the metabolic pathway for xylonate production in E. coli by surface expression of enzymes in this pathway (xylose dehydrogenase). The results obtained in this study confirm that half of the pathway is active at the cell surface, but further experiments are required to determine the precise production levels and complete the pathway. This study aimed to create a metabolic pathway for producing xylonate in E.coli. هدف: ماده D-1,2,4 بوتان تریول یک ماده شیمیایی ارزشمند با کاربردهای گسترده در زمینه های مختلف است. هدف از انجام این مطالعه کلون‌سازی و بیان سطحی ژن آنزیم زایلوزدهیدروژناز از کلوباکتر ویبریوئیدس در ای. کلی میباشد. مواد و روش‌ها: برای دسترسی به باکتری ابتدا ژنوم باکتری مورد نظر استخراج شد. به منظور ساخت سویه‌ی بیان کننده آنزیم زایلوز دهیدروژناز ژن این پروتئین از باکتری کلوباکترویبریوئیدسCB1 تکثیر و به باکتری ای. کلی انتقال یافت. سپس ژن مورد نظربا استفاده از پرایمرهای طراحی شده به روش PCR تکثیر و ابتدا در وکتور کلونینگ pTZ57و سپس در وکتور بیانی pET 26 کلون شد. سپس بیان این آنزیم به وسیله‌ی SDS-PAGE و عملکرد آن با تغییر در جذب طول موج 340 نانومتر توسط NADH تولید شده مورد بررسی قرار گرفت. نتایج: با انجام آزمایش های تاییدی و اطمینان از وجود ژن در وکتورها(با استفاده از آنزیم‌های محدودالاثر و تکثیر ژن به کمک واکنش زنجیره‌ای پلی‌مراز (Colony PCR) و فرآیند کلونینگ)، بیان و عملکرد این آنزیم مورد بررسی قرار گرفت. وجود پروتئین نوترکیب توسط SDS-PAGE برای ژن زایلوز دهیدروژناز با وزن مولکولی 52.2 کیلودالتون بررسی و میزان بیان پروتئین نوترکیب با نرم افزار ImageJ ، تقریبا 25 درصد تخمین زده شد. نتیجه گیری:هدف از این تحقیق تنها ایجاد مسیر متابولیسمی تولید زایلونات در سویه ای. کلی به وسیله ی سطحی کردن اولین آنزیم این مسیر(زایلوزدهیدروژناز) بود که نتایج بدست آمده در این تحقیق موید فعال بودن این آنزیم در سطح سلول می‌باشد و برای تعیین میزان دقیق تولید و تکمیل کردن مسیرنیازمند بررسی های دیگرمی‌باشد.

https://jct.araku.ac.ir/article_732547_18d8bb9199ecb9c42ed50826c6b83882.pdf

دانشگاه اراک سلول و بافت 2228-7035 17 1 2026 03 21 Production and Transduction of a Recombinant Lentiviral Particle Carrying the PDX1 Gene in Chick Embryo Cell Culture تولید و انتقال ذرات لنتی‌ویروسی نوترکیب حامل ژن PDX1 به سلول‌های جنین جوجه 17 32 732178 10.66224/JCT.17.1.17 FA عظیمه اخلاق پور گروه سلول های بنیادی و سرطان، دانشکده زیست فناوری، دانشگاه تخصصی فناوری های نوین آمل، آمل، ایران. 0000-0002-6200-415X سیده نفیسه حسنی گروه سلول های بنیادی و زیست شناسی تکوینی، مرکز تحقیقات علوم سلولی، موسسه زیست شناسی و فناوری سلول های بنیادی رویان، تهران، ایران. Journal Article 2025 09 27 Introduction: Gene therapy involves transferring genetic material into target cells to correct mutations or introduce new biological functions. Among delivery systems, lentiviral vectors are considered efficient and reliable tools due to their ability to integrate stably into the host genome and transduce both dividing and non-dividing cells. This property provides long-term gene expression, which is highly valuable for therapeutic and experimental applications. The PDX1 (Pancreatic and Duodenal Homeobox 1) gene plays a central role in pancreatic organogenesis and the regulation of insulin-producing beta cells. It acts as a transcription factor controlling genes critical for endocrine differentiation and insulin secretion. Chick embryos are a useful experimental model due to their accessibility, rapid development, and the responsiveness of their fibroblast and germ cells to gene transfer systems. These features make them suitable for studying gene delivery efficiency and expression stability. Aim: The aim of this study was to construct and produce recombinant lentiviral vectors carrying the PDX1 gene in HEK293T-LentiX cells and evaluate their transfer efficiency in chick embryonic fibroblast and germ cells. This work was conducted to assess the potential of lentiviral systems for stable gene delivery in avian cells. Materials and Methods: HEK293T-LentiX cells were selected as producer cells due to their high transfection efficiency and viral packaging capability. They were cultured in DMEM supplemented with 10% fetal bovine serum, penicillin, and streptomycin under standard incubation conditions (37°C, 5% CO₂). Lentiviral particles were generated using a three-plasmid packaging system, including a transfer vector containing the PDX1 gene and two helper plasmids. Transfection was carried out using the calcium phosphate method. After 48–72 hours, the viral-containing supernatant was collected, filtered, and concentrated. Viral titers were determined by evaluating GFP expression in target cells through fluorescence microscopy and flow cytometry. Chick embryonic fibroblast and primordial germ cells were isolated and infected with various viral concentrations in the presence of 8 µg/ml polybrene to enhance infection. After incubation, cells were examined for GFP signal as evidence of successful gene transfer. Results: High-titer recombinant lentiviral particles were successfully produced in HEK293T cells. Fluorescence microscopy revealed strong GFP expression, confirming the presence of functional viral particles. Flow cytometry analysis provided quantitative confirmation of high viral titers. Following transduction, chick embryonic fibroblast and germ cells exhibited clear GFP expression, indicating efficient infection and gene transfer. The PDX1 gene was successfully delivered and expressed within target cells. Although transduction efficiency varied slightly between cell types, the overall results demonstrated that the lentiviral system provided stable and effective gene delivery to chick embryo-derived cells. Discussion: The study confirmed that lentiviral vectors carrying the PDX1 gene could be efficiently produced and used to achieve stable gene transfer in chick embryonic cells. This system’s ability to integrate permanently into the host genome ensures consistent gene expression over time without repeated transfection. For functional genes like PDX1, this stability is crucial for maintaining insulin-related pathways and pancreatic cell differentiation. Chick embryos serve as an advantageous model because their cells are easily accessible, grow rapidly, and respond well to viral vectors. Such characteristics make them ideal for investigating genetic regulation during early development. Evaluation of viral titers using fluorescence microscopy and flow cytometry provided reliable data confirming efficient vector production. The integration of new tools such as CRISPR/Cas9 can further enhance lentiviral design precision, allowing targeted modification of specific genes. Combining these technologies may open promising avenues for studying metabolic disorders and for gene-based therapies. Conclusion: Recombinant lentiviral vectors carrying the PDX1 gene were successfully generated and used to transduce chick embryonic fibroblast and germ cells. The system exhibited high production efficiency, stable gene expression, and suitability for in vitro studies. These findings demonstrate that lentiviral vectors represent a powerful and versatile platform for gene transfer and experimental modeling in avian systems. Moreover, coupling lentiviral vectors with genome editing technologies could expand future applications in regenerative medicine and genetic engineering. هدف: هدف این پژوهش، تولید ذرات لنتی‌ویروسی نوترکیب حامل ژن PDX1 در سلول‌های HEK293T-LentiX و ارزیابی کارایی انتقال آن‌ها به سلول‌های جنینی جوجه بود. مواد و روش‏ها: برای تولید ویروس، سلول‌های HEK293T-LentiX با سامانه سه‌پلاسمیدی ترانسفکت شدند و بیان GFP با میکروسکوپ فلورسانس بررسی شد. تیتر ویروس به‌صورت کمی با فلوسایتومتری در سلول‌های HT1080 اندازه‌گیری شد. ذرات لنتی‌ویروسی به سلول‌های فیبروبلاست و سلول‌های زایای اولیه جنین جوجه منتقل شدند و بیان سازه نوترکیب به‫کمک تصویر‌برداری فلورسانس ارزیابی شد. نتایج: ذرات لنتی ویروسی با تیتر بالایی در سلول‌های HEK293T تولید شدند و با استفاده از روش فلوسایتومتری میزان تیتر ویروس ارزیابی و تایید شد. این ویروس نوترکیب با قدرت بالایی به‫درون سلول‌های جنینی جوجه انتقال یافتند. این تیتر ویروسی در سلول‌های HT1080 با استفاده از فلوسایتومتری ارزیابی و تایید شد. وجود ویروس در سلول‌های فیبروبلاست و پانکراسی جنین جوجه مشاهده شد. نتیجه‏گیری: ناقل‌های لنتی‌ویروسی حامل ژن PDX1 که با بهره‌گیری از سامانه CRISPR/Cas9 طراحی شده‌اند، توانایی مناسبی برای انتقال ژن به سلول‌های جنینی جوجه نشان دادند. این سامانه می‌تواند به‌عنوان ابزار کارآمدی برای انتقال ژن‌های هدف به سلول‌های زایای اولیه و توسعه مدل‌های حیوانی اصلاح‌شده ژنتیکی با کاربردهای پژوهشی و زیست‌فناورانه مورد استفاده قرار گیرد.

https://jct.araku.ac.ir/article_732178_e795ed03db7962ae52c6117c4da0f4e8.pdf

دانشگاه اراک سلول و بافت 2228-7035 17 1 2026 03 21 Targeted Delivery of Curcumin to Hs-578T Cells Using Multifunctional PLA-PEG-Fe3O4 Nanoparticles Modified with Folic Acid and Glucose انتقال هدفمند کورکومین به سلول‌های Hs-578T به کمک نانوذرات چندمنظوره PLA-PEG-Fe3O4 اصلاح‌شده با فولیک‌اسید و گلوکز 33 58 731557 10.66224/JCT.17.1.33 FA هاشم یعقوبی گروه زیست شناسی ،واحد اردبیل، دانشگاه آزاد اسلامی، اردبیل، ایران 0000-0003-3449-3037 Journal Article 2025 10 01 Introduction: Cancer is one of the most significant diseases of the present century and ranks as the second leading cause of death worldwide. Its incidence, particularly breast cancer in women, is steadily increasing. This disease arises from uncontrolled cell proliferation and the ability of cancer cells to migrate to healthy tissues, leading to tumor formation and metastasis. The genetic and biological heterogeneity of cancer cells, especially in breast cancer, complicates effective treatment. Conventional therapies such as surgery, chemotherapy, and radiotherapy, although effective in reducing tumor size, are associated with limitations, including damage to healthy cells, drug resistance, and systemic side effects. Therefore, the development of targeted and innovative therapeutic strategies is a priority in cancer research. One promising approach is the use of nanoparticles for targeted drug delivery. Due to their small size, high surface-to-volume ratio, and modifiable surfaces, nanoparticles can efficiently carry drugs and deliver them to target cells. Controlled drug release from nanoparticles reduces uptake by healthy cells and minimizes systemic toxicity. Iron oxide nanoparticles (Fe3O4) possess unique magnetic and chemical properties that enable precise guidance to tumor sites and allow real-time monitoring of drug distribution via MRI. Surface modification with biocompatible polymers such as polyethylene glycol (PEG) enhances nanoparticle stability, prolongs systemic circulation, reduces immune clearance, and provides sites for conjugating targeting ligands such as folic acid and glucose. Polylactic acid (PLA), a biodegradable and biocompatible polymer, increases drug-loading capacity and enables sustained and controlled drug release. Combining PLA with PEG and targeting ligands creates multifunctional nanoparticles that are stable, biocompatible, and capable of selectively recognizing cancer cells while minimizing side effects on healthy tissues. Targeting ligands such as folic acid and glucose facilitate selective cellular uptake; folic acid binds to overexpressed receptors on many cancer cells, promoting intracellular drug delivery, while glucose exploits the high metabolic demand of cancer cells, improving the delivery of therapeutic agents or genes. Aims: Dual-ligand nanoparticles enable multi-pathway targeting, enhancing therapeutic efficacy and potentially overcoming drug resistance. In this study, multifunctional PLA-PEG nanoparticles functionalized with folic acid and glucose and incorporating Fe3O4 were developed for targeted drug delivery to triple-negative breast cancer cells (Hs-578T). This system combines magnetic guidance, biocompatibility, controlled drug release, and selective targeting, providing a promising platform for effective and safe breast cancer treatment with reduced side effects compared to conventional therapies. Materials and Methods: Various chemicals and reagents, including MTT ((3-[4,5-dimethylthiazol-2-yl]-2,5 diphenyl tetrazolium bromide)), Ethanol, HCl, NaCl, KH2PO4, Chloroform, NH2-PEG-FA, NH2-PEG-Glu, NaOH, and paraformaldehyde were procured from commercial suppliers, while FBS, DMEM, and trypsin-EDTA were used for in vitro studies with Hs-578T breast cancer cells. Multifunctional nanoparticles PPF (PLA-PEG-FA), PPG (PLA-PEG-Glu), and PPGF (PLA-PEG-Glu/FA) were synthesized via the reaction of PLA-acrylate with the respective NH2-PEG derivatives in chloroform under mechanical stirring and mild heating, followed by purification through dialysis and freeze-drying. Methanolic extract of Silybum marianum was prepared by ultrasonication of powdered aerial parts in 80% methanol, followed by centrifugation and filtration. Fe3O4 nanoparticles were synthesized via co-precipitation of Fe (III) and Fe (II) salts under nitrogen, followed by gradual addition of Silybum marianum plant extract and NaOH, leading to nanoparticle formation. The particles were collected magnetically, washed, freeze-dried, and stored in dark, dry conditions. Targeted delivery of Curcumin (CUR) was achieved using folic acid and glucose ligands. CUR and Fe3O4-OA were incorporated into PPF, PPG, or PPGF matrices using sonication and emulsification in PVA solutions, followed by rotary evaporation to remove chloroform, washing, and filtration to remove unencapsulated drug and large particles. Structural and chemical composition were analyzed using 1H-NMR and FTIR spectroscopy. Morphology was observed via TEM, and average size and zeta potential were measured using dynamic light scattering (DLS). Drug encapsulation efficiency was determined spectrophotometrically by measuring unencapsulated CUR in the supernatant. CUR release kinetics were evaluated in two pH environments: pH=7.4 (normal cells), and pH=4.5 (tumor-like), with periodic sampling and replacement with fresh medium over three days. Cytotoxicity was assessed via the MTT assay, with IC50 values determined after treating Hs-578T cells with varying concentrations of CUR, nanoparticles with CUR, or blank nanoparticles. Apoptosis was analyzed using Annexin V/propidium iodide staining and flow cytometry to distinguish apoptotic and necrotic cells. All experiments were performed in triplicate. Data were analyzed using one-way ANOVA followed by Duncan’s test at a 5% significance level, and normality was verified with the Kolmogorov–Smirnov test. Results are reported as mean ± standard deviation. Results: Targeted drug delivery has emerged as a promising strategy for treating difficult-to-treat diseases, including cancer, by directing therapeutic agents specifically to diseased tissues while minimizing uptake by normal cells. Biocompatible and biodegradable polymers are essential for efficient delivery systems. PLA, a widely used biodegradable polymer, allows loading and controlled release of hydrophobic drugs like curcumin. However, PLA alone can aggregate in serum due to hydrophobic interactions, leading to immune recognition and clearance. To overcome this, PLA was conjugated with PEG, which enhances nanoparticle circulation time and provides a stealth effect, reducing recognition by the immune system. PEG also improves drug loading and stability, although it is not biodegradable and may accumulate over repeated doses. Magnetic Fe3O4 nanoparticles were incorporated to increase targeting efficiency, while folic acid and glucose ligands were used for selective recognition of cancer cells. The synthesized PLA-based nanoparticles demonstrated good biocompatibility with Hs-578T cells, showing no significant cytotoxicity. Drug encapsulation within PLA-PEG nanoparticles allowed controlled and sustained release of curcumin, which was particularly enhanced under acidic conditions mimicking the tumor microenvironment. Notably, nanoparticles containing both folic acid and PEG showed higher drug release compared to those with PEG alone, highlighting the role of folic acid in facilitating curcumin release. This pH-sensitive release profile minimizes drug exposure to normal tissues, potentially reducing side effects. Cytotoxicity assay revealed that curcumin-loaded nanoparticles significantly inhibited Hs-578T cell proliferation compared to free curcumin, with the dual-ligand nanoparticles exhibiting the lowest IC50 values. Flow cytometry analysis demonstrated that these nanoparticles primarily induced apoptosis rather than necrosis, suggesting selective activation of programmed cell death pathways. The enhanced apoptotic effect is likely due to increased cellular uptake and targeted delivery, which facilitates higher intracellular concentrations of curcumin. Discussion: Overall, the results indicate that PLA-PEG-based nanoparticles, functionalized with magnetic Fe3O4 and surface ligands, provide an effective platform for targeted curcumin delivery. These nanoparticles combine biocompatibility, controlled release, tumor-specific accumulation, and apoptosis induction, which collectively enhance therapeutic efficacy while minimizing systemic toxicity. The study underscores the potential of multifunctional nanocarriers as a promising approach for improving the effectiveness of anticancer therapies and offers a foundation for the further development of targeted, stimuli-responsive drug delivery systems. Conclusion: As a final conclusion of this study, it can be stated that the development of novel drug delivery systems based on PLA-PEG copolymer nanoparticles is a promising and strategic step toward overcoming the therapeutic challenges of intractable diseases such as cancer. This study clearly demonstrated that the design of such nanocarriers not only offers high biocompatibility and safety for normal cells, but also, by taking advantage of the camouflage effect caused by PEG, increases blood circulation time and prevents premature elimination by the immune system. The outstanding feature of this system is the ability to control and intelligently release the drug in response to specific stimuli of the tumor microenvironment, especially higher acidity, which allows for maximum drug delivery to the target tissue and, subsequently, a significant reduction in systemic side effects. In this study, the effect of adding targeting ligands such as folic acid and glucose on the accuracy and efficiency of these nanoparticles in recognizing and binding to cancer cells was also clearly observed. In addition, the results of this study showed that the designed nanoparticles were successfully able to increase the induction of cell apoptosis in Hs-578T cancer cells. These findings strongly support the superiority of this nanotechnology compared to conventional drug formulations, both in increasing therapeutic efficacy and reducing toxicity. Overall, it can be concluded that PLA-PEG-based smart nanoparticles, with their multimodal capabilities, have great potential to become a comprehensive and reliable approach in the next generation of targeted cancer therapies, paving the way for further studies and ultimately effective clinical applications. مقدمه و هدف سرطان پستان سه‌گانه منفی با تهاجم بالا و مقاومت دارویی مواجه است. هدف این مطالعه طراحی و تولید نانوحامل هوشمند چندمنظوره مبتنی بر کوپلیمر PLA-PEG برای انتقال هدفمند کورکومین به سلول‌های سرطانی پستان (Hs-578T) و بهبود اختصاصیت و کارایی درمانی بود. مواد و روش‌ها نانوذرات PLA-PEG با لیگاندهای اسید فولیک (FA) و گلوکز (Glu) برای هدف‌گیری سلولی و با اکسید آهن (Fe3O4) برای هدایت مغناطیسی و ایجاد پتانسیل درمان ترکیبی سنتز شدند. ساختار نانوذرات PPF (PLA-PEG-FA-Fe3O4)، PPG (PLA-PEG-Glu-Fe3O4) و PPGF (PLA-PEG-Glu-FA-Fe3O4) با استفاده از 1H-NMR و FTIR تأیید شد. مورفولوژی و اندازه نانوذرات پس از بارگذاری کورکومین (CUR) با TEM، SEM و DLS بررسی گردید. سینتیک رهایش دارو در شرایط مختلف pH مورد ارزیابی قرار گرفت و سمیت سلولی با آزمون MTT و فلوسایتومتری سنجیده شد. نتایج نانوذرات کروی با اندازه ۱۵۰ الی ۲۰۰ نانومتر و بدون تجمع مشاهده شدند. رهایش کورکومین وابسته به pH بود و در محیط اسیدی (8/4pH=) که مشابه ریزمحیط تومور است، افزایش قابل توجهی داشت. نانوذرات بدون دارو سمیت قابل ملاحظه‌ای نداشتند، در حالی که فرمولاسیون‌های بارگذاری شده با کورکومین فعالیت ضدسرطانی معناداری نشان دادند. بیشترین اثر سیتوتوکسیک متعلق به نانوذرات دارای هر دو لیگاند و اکسید آهن (PPGFFe/CUR) با کمترین IC50 (µg/mL ۱۶۱/۵۶) بود. نتایج حاصل از فلوسایتومتری نشان داد که این نانوذرات عمدتاً آپوپتوز را القا کرده و از نکروز جلوگیری می‌کنند. نتیجه‌گیری نانوحامل طراحی‌شده، قابلیت رهایش pH-حساس، سمیت پایین نانوحامل و اثر ضدسرطانی مؤثر را نشان داد و پتانسیل بالایی برای درمان ترکیبی سرطان پستان سه‌گانه منفی دارد.

https://jct.araku.ac.ir/article_731557_2af27b23a589bd961656f0979e8abf1c.pdf

دانشگاه اراک سلول و بافت 2228-7035 17 1 2026 03 21 Investigation of antimicrobial and antioxidant properties of exosomes and extracts prepared from medicinal plants: Zingiber officinale, Lavandula angustifolia, Allium cepa, and Citrus limon بررسی خواص ضد میکروبی، آنتی اکسیدانی اگزوزوم ها و عصاره های تهیه شده از گیاهان دارویی زنجبیل، اسطوخودوس، پیاز و لیمو ترش 59 72 735516 10.66224/JCT.17.1.59 FA شقایق مردانی دانشجوی ارشد بیوشیمی، گروه بیوتکنولوژی، دانشکده علوم زیستی. ، دانشگاه الزهرا، تهران، ایران پریچهر حناچی گروه بیوتکنولوژی ، دانشکده علوم زیستی، دانشگاه الزهرا، تهران، ایران 0000-0002-6450-203X ریحانه رمضانی استادیار گروه خانواده درمانی، پژوهشکده زنان، دانشگاه الزهرا، تهران، ایران 0000-0002-7901-7627 الهه مبارک قمصری گروه میکروبیولوژی، دانشکده علوم زیستی. ، دانشگاه الزهرا، تهران، ایران Journal Article 2025 10 09 Introduction: Plant-derived exosome-like nanoparticles (PDENs) are nano-sized vesicles released by plant cells. They contain a lipid bilayer membrane and carry bioactive molecules such as proteins, lipids, nucleic acids, and secondary metabolites. Due to their low toxicity and natural drug delivery potential, they have gained attention for therapeutic applications. Plant extracts are also rich in phenolic compounds and flavonoids with known antioxidant and antimicrobial effects. The rising problem of antibiotic resistance in pathogens like Escherichia coli, Staphylococcus aureus, and Streptococcus pyogenes has created an urgent need for new natural agents. Aim: This study aimed to isolate and characterize exosomes from ginger, lavender, onion, and lemon, and to compare their antioxidant and antibacterial activities with those of aqueous extracts from the same plants. Materials and methods: Fresh ginger, lavender, onion, and lemon were used for the preparation of plant extracts and exosome isolation. For aqueous extraction, 2 g of ginger and lavender samples were homogenized with 20 mL of distilled water and incubated in a water bath at 70°C for 90 minutes. The mixtures were centrifuged at 3000 × g for 10 minutes, and the supernatants were filtered and stored at 4°C until analysis. Exosomes were isolated using the Exosun Exosome Isolation Kit (EXOSUN Company). Plant materials were homogenized, filtered, and subjected to differential centrifugation. The resulting supernatants were processed according to the manufacturer's instructions using buffers A and B. Due to the acidic nature of lemon juice, modification of the protocol was required by increasing the concentration of buffer A to facilitate exosome precipitation. Protein concentration of isolated exosomes was determined using the Bradford assay with bovine serum albumin (BSA) as the standard. Exosome morphology was characterized by transmission electron microscopy (TEM). The antioxidant activity of extracts and exosomes was evaluated using the Ferric Reducing Antioxidant Power (FRAP) assay. Samples were analyzed in 96-well microplates, and absorbance was measured at 570 nm. Antibacterial activity was assessed against Escherichia coli, Staphylococcus aureus, and Streptococcus pyogenes using the disk diffusion method. Sterile blank disks were impregnated with plant extracts or exosome preparations at concentrations of 25, 50, and 100 mg/mL and placed on Mueller-Hinton agar plates inoculated with bacterial suspensions adjusted to a 0.5 McFarland standard. Gentamicin and vancomycin served as positive controls. Minimum inhibitory concentration (MIC) and minimum bactericidal concentration (MBC) values were determined using the broth microdilution method in 96-well microplates. All experiments were performed in triplicate. Statistical analyses were conducted using SPSS version 27, applying one-way ANOVA followed by Tukey’s post hoc test, with p <0.05 considered statistically significant. Results: TEM confirmed successful isolation of exosome-like vesicles from all plants. Bradford assay indicated protein-containing nanoparticles. FRAP analysis showed that lavender had the highest antioxidant capacity. Plant extracts generally showed greater antioxidant activity than their corresponding exosomes. Antibacterial testing revealed that exosomes from all four plants had no detectable antibacterial effect. Similarly, aqueous extracts of ginger, lavender, and onion showed no inhibition. However, lemon extract exhibited significant antibacterial activity against all three bacteria. MIC values of lemon extract were 3.12 mg/mL for S. aureus, 6.25 mg/mL for S. pyogenes, and 50 mg/mL for E. coli. Inhibition zones for S. aureus reached 22 mm at 100 mg/mL. Gram-positive bacteria were more susceptible than Gram-negative E. coli. Discussion:The spread of antibiotic-resistant pathogens has increased the need for new treatments. In this study, exosomes isolated from ginger, lavender, onion, and lemon showed no antibacterial activity, while among aqueous extracts, only lemon extract displayed good antibacterial properties. The lack of activity in aqueous lavender extract compared to alcoholic extracts in previous reports may be due to solvent differences affecting phenolic compound extraction. Aqueous ginger extract also showed no effect, which contrasts with some alcoholic extracts. However, lavender exosomes demonstrated the highest antioxidant capacity among all samples, highlighting their potential for antioxidant applications. Conclusion: Although plant-derived exosomes from these four species did not show antibacterial effects under the tested conditions, lemon aqueous extract exhibited promising antimicrobial activity, especially against Gram-positive bacteria. Lavender exosomes showed the strongest antioxidant potential. These findings suggest that lemon extract could serve as a natural antibacterial agent, while lavender-derived exosomes and extracts may be valuable sources of natural antioxidants. Further in vivo studies are needed to explore their efficacy and safety. گیاهان به دلیل فواید بی‌شمارشان، توجه فزاینده‌ای را در تحقیقات زیست‌پزشکی به خود جلب کرده‌اند. وزیکول‌های مشتق‌شده از اگزوزوم‌های گیاهی،وزیکول‌های کوچک در مقیاس نانو هستند که توسط سلول‌های گیاهی ترشح می‌شوند. گیاهان،بادارا بودن مواد بیولوژیکی، تأثیر مفیدی بر سلامت انسان با کمترین سمیت نشان داده‌اند. این مواد طبیعی پتانسیل قابل توجهی در تولید داروهای جدید دارند. هدف از این پژوهش عصاره گیری واستخراج اگزوزوم اززنجبیل واسطوخودوس و پیاز و لیمو ترش وبررسی خواص آنتی باکتریال و آنتی اکسیدانی انها بود. مواد و روش‏ها:. ابتدا با استفاده از روش آبی اززنجبیل واسطوخودوس و پیاز و لیمو ترش عصاره گیری صورت گرفت اگزوزوم‌ها با کیت اگزوسان استخراج و خالص‌سازی شدند و با استفاده از تکنیک‌ TEM شناسایی گردیدند. فعالیت ضد باکتریایی این اگزوزوم و عصاره ها در برابر گونه‌های گرم مثبت و گرم منفی، از جمله Staphylococcus aureus و Escherichia coli و Streptococcus pyogenes به روشMIC و انتشار دیسک بررسی شد. با استفاده از کیت اندازه گیری ظرفیت تام انتی اکسیدانی TAC میزان آنتی اکسیدان عصاره ها واگزوزوم ها اندازه گیری شد. نتایج نشان دادند که تنها عصاره لیمو خاصیت ضد باکتریایی داشت و اگزوزوم ها ی زنجبیل و اسطوخودوس و پیاز و لیمو ترش فاقد خاصیت آنتی باکتریال بودند. در آزمون آنتی اکسیدانی، اگزوزوم اسطوخودوس بیشترین ظرفیت را از خود نشان داد. نتایج این پژوهش نشان داد که گرچه اگزوزومهای گیاهی خاصیت ضد باکتریایی قابل توجهی نداشتند، اما دارای اثرات آنتی اکسیدانی مهمی بودند. شاید درآینده بتوان از آنها به عنوان حامل های زیستی در دارورسانی هدفمند بهره برد.

https://jct.araku.ac.ir/article_735516_d3a10230c08f05f6ff0a7d284e4de2f0.pdf

دانشگاه اراک سلول و بافت 2228-7035 17 1 2026 03 21 The effect of iron oxide nanoparticles and BAP on the cultivation of bell pepper anthers (Capsicum annuum L.) تاثیر نانوذره اکسیدآهن و BAP در کشت بساک گیاه فلفل دلمه‌ای (Capsicum annuum L.) 73 88 734137 10.66224/JCT.17.1.73 FA مریم محمدی دانشگاه بین المللی امام خمینی (ره) 0009-0000-9560-7603 رحیم حداد گروه بیوتکنولوژی، دانشکده کشاورزی و منابع طبیعی، دانشگاه بین المللی امام خمینی(ره)، قزوین، ایران 0000-0001-5564-774X قاسمعلی گروسی گروه بیوتکنولوژی، دانشکده کشاوری و منابع طبیعی، دانشگاه بین المللی امام خمینی (ره)، قزوین، ایران Journal Article 2024 11 24 Introduction: The anther culture technique is used in vitro for many plant species as an effective tool for obtaining haploid and doubled-haploid lines. Aims: This study aimed to investigate the influence of different concentrations of iron oxide nanoparticles and benzylaminopurine (BAP) on callus formation, embryogenesis, regeneration, and rooting in bell pepper anther culture Materials and Methods: The experiment was conducted as a factorial experiment in a completely randomized design under in vitro culture conditions. Flower buds of appropriate size (equal sepal to petal ratio or slightly longer petal) were collected from the greenhouse, and acetocarmine solution was used to determine the growth and development stage of microspores. The results showed that the most suitable stages for embryogenesis induction were the late mononuclear and early binuclear stages. In order to sterilize the flower buds, 70% ethanol for 30 seconds and 5% sodium hypochlorite for 20 minutes were used, and after each stage, they were washed three times with sterile distilled water. Then, the anthers were separated from the flower bud and placed in C medium containing 2 mg/L naphthalene acetic acid (NAA), different concentrations of BAP (0, 0.1, 0.5, and 1 mg/L), and different concentrations of iron oxide nanoparticles (0, 1, 10, and 20 mg/L). After that, the explants cultured in C medium were kept at 35°C in a dark place for 8 days in order to apply heat treatment. Then, they were transferred to 25°C in the light for 4 days. After this period, in order to induce embryogenesis, the explants were transferred from C medium to R medium and were subcultured every three weeks until embryos emerged. For further growth and root development, the embryos were transferred to V medium. Results: The analysis of variance showed that different concentrations of iron oxide nanoparticles had a significant effect on the percentages of embryogenesis, regeneration, and rooting, but had no significant effect on the percentage of callus formation. The results of the mean comparison showed that among the different concentrations of iron oxide nanoparticles, the 1 mg/L treatment produced the highest embryogenesis percentage (11.11%). Furthermore, the mean comparison results for regeneration indicated that the 1 mg/L treatment resulted in the highest regeneration percentage (16.66%). The results of the interaction effects showed that among the different concentrations of iron oxide nanoparticles and BAP, the highest percentage of embryogenesis was observed in the treatment of 20 mg/L iron oxide nanoparticles and 0 mg/L BAP. Also, the treatment of 20 mg/L iron oxide nanoparticles and 0 mg/L BAP had the highest percentage of regeneration (33.33%). After sufficient growth and root formation, the obtained plants were removed from the glass culture containers and transferred to pots containing sterilized culture medium and watered for adaptation. The tops of the pots were covered with plastic cups, and after three days, the cups were pierced, and the plastic was gradually removed from the plant for further adaptation. Ploidy levels were determined by chromosome counting after staining the root tip cells. The results showed that out of the 23 obtained plants, 21 were diploid and had 2n=2x=24 chromosomes, and 2 were haploid and had n=x=12 chromosomes. Discussion: Applying different concentrations of iron oxide nanoparticles in medium C had a positive effect on the regeneration of bell pepper plants. Iron is a vital micronutrient for several key cellular processes in plants. In addition, iron is essential for ensuring the structural integrity of proteins. Iron nanoparticles positively affect plant growth in tissue culture by increasing morphological parameters. The beneficial effects of nanoparticles on plants are related to their high solubility and reactivity, which affect how they interact with membranes and other cellular components, due to their large specific surface area. The treatment of 20 mg/L of nanoparticles and 0 mg/L of BAP had the highest regeneration percentage. The culture medium containing nano-iron leads to the plant benefiting from the element iron directly at all different stages of growth and its participation with other nutrients, and therefore the production of many nutrients containing it leads to the transfer of their excess to different parts of the plant. The presence of nano iron in the culture medium has led to a nutritional balance in the plant and, as a result, has improved the plant growth process by increasing the amount of nutrients and elements accumulated in the microsample. Cytokinins act as a nutrient reservoir, which leads to an increase in the percentage of elements in the microsample and an increase in the percentage of sugars in the culture medium, which is important in the structural processes in tissues and affects the accumulation of sugars in it, and is reflected in increased vegetative growth. Conclusion: In bell pepper anther culture, different concentrations of iron oxide nanoparticles, along with plant growth regulators at different concentrations, showed a great effect on embryogenesis, regeneration, and rooting. هدف: هدف از انجام این مطالعه، بررسی غلظت‌های مختلف نانوذره اکسیدآهن و بنزیل آمینو پورین (BAP) در کشت بساک گیاه فلفل دلمه‌ای روی صفات درصد کالوس‌زایی، جنین‌زایی، باززایی و ریشه‌زایی است. مواد و روش‌ها: آزمایش به صورت فاکتوریل در قالب طرح کاملا تصادفی در شرایط کشت درون شیشه‌ای انجام شد. جوانه‌های گل در اندازه مناسب از گلخانه جمع آوری شده و پس از مراحل مختلف استریل، بساک‌ها در محیط کشت C حاوی 2 میلی‌گرم در لیتر نفتالین استیک اسید (NAA) ، غلظت‌های مختلف BAP (0، 1/0، 5/0 و 1 میلی‌گرم در لیتر) و غلظت‌های مختلف نانوذره اکسیدآهن (0، 1، 10 و 20 میلی‌گرم در لیتر) کشت گردیدند. نتایج: نتایج حاصل از تجزیه واریانس داده‌ها نشان داد که به کار بردن غلظت‌های مختلف نانوذره اکسیدآهن و BAP تاثیر معنی‌داری بر درصد جنین‌زایی، باززایی و ریشه‌زایی گیاه دارد. نتایج اثرات متقابل نشان داد که در بین غلظت‌های مختلف نانوذره اکسیدآهن و BAP بیشترین درصد جنین‌زایی (88/38 درصد) در تیمار 20 میلی‌گرم در لیتر نانوذره اکسیدآهن و صفر میلی‌گرم در لیتر BAP مشاهده شد. همچنین تیمار 20 میلی‌گرم در لیتر نانوذره اکسیدآهن و صفر میلی‌گرم در لیتر BAP دارای بیشترین درصد باززایی (33/33 درصد) بود. تعیین سطوح پلوئیدی از طریق شمارش کروموزومی بوسیله رنگ آمیزی سلول‌های نوک ریشه انجام گرفت که از 23 گیاه بدست آمده 21 عدد دیپلوئید و 2 عدد هاپلوئید بودند. نتیجه‌گیری: در کشت بساک فلفل دلمه‌ای، غلظت‌های مختلف نانوذره اکسیدآهن به همراه تنظیم کننده‌های رشد گیاهی در غلظت‌های مختلف تاثیر زیادی را در جنین‌زایی، باززایی و ریشه‌زایی نشان دادند.

https://jct.araku.ac.ir/article_734137_9afe6612c1d516d80a10d7273025c620.pdf

دانشگاه اراک سلول و بافت 2228-7035 17 1 2026 03 21 Investigation the expression changes of miR-34a, Caspase 3, Caspase 9, BAX in pancreatic cancer cells (AsPC-1 cell line) treated with methanolic extract of Artemisia absinthium and 5-Fluorouracil بررسی تغییرات بیان BAX, Caspase 3, Caspase 9, miR-34a در سلول‌های سرطانی پانکراس (ردهASPC-1) تیمار شده با عصاره تام متانولی Artemisia absinthium و 5-فلورواوراسیل 89 103 732844 10.66224/JCT.17.1.89 FA مریم لطفی گروه زیست شناسی، دانشکده علوم پایه، واحد مشهد، دانشگاه آزاد اسلامی، مشهد، ایران 0009-0003-1443-6067 خدیجه نژاد شاهرخ آبادی گروه زیست شناسی، دانشکده علوم پایه، واحد مشهد، دانشگاه آزاد اسلامی، مشهد، ایران 0000-0002-3536-3456 جواد بهارآرا گروه زیست شناسی و مرکز تحقیقات بیولوژی کاربردی تکوین جانوری، واحد مشهد، دانشگاه آزاد اسلامی، مشهد، ایران 0000-0001-9728-2945 محدثه سادات مدنی گروه زیست شناسی، دانشکده علوم پایه، واحد مشهد، دانشگاه آزاد اسلامی، مشهد، ایران 0009-0005-4526-9972 Journal Article 2025 10 09 Introduction: Pancreatic cancer is the fourth leading cause of cancer-related deaths worldwide. 5-Fluorouracil is one of the commonly used chemotherapeutic drugs. The plant Artemisia absinthium has attracted attention as a potential herbal anticancer agent. This study investigated the effect of the methanolic extract of this plant on the expression of miR-34a and the apoptotic genes BAX, Caspase-3, and Caspase-9 in AsPC-1 pancreatic cancer cells. Aims: This study aimed to evaluate the cytotoxic and pro-apoptotic effects of Artemisia absinthium methanolic extract on pancreatic cancer cells. The research specifically investigated the molecular mechanism by analyzing expression changes in the tumor suppressor miR-34a and key apoptotic genes BAX, Caspase-3, and Caspase-9 to elucidate the extract's anti-cancer mode of action. Materials and Methods: To evaluate the cytotoxic effects of the plant extract on cancer cells, an MTT ((3-[4,5-dimethylthiazol-2-yl]-2,5 diphenyl tetrazolium bromide)) assay was performed to determine the viability and survival rate of the cells following treatment with various concentrations of the extract, the chemotherapeutic drug fluorouracil (5-FU), and the combined treatment of the extract and the drug. This assay measures cellular metabolic activity and allows quantification of live and dead cells after exposure to different treatments. Based on the obtained results, the IC₅₀ value for each treatment was calculated, representing the concentration at which 50% of the cells were inhibited or killed. After determining the IC₅₀ value, cells were treated with concentrations equal to, lower than, and higher than the IC₅₀ to further investigate the cytotoxic effects and the mode of cell death induced by the treatments. To distinguish between apoptotic and necrotic cell death, the Annexin V-FITC/PI assay was employed. This assay detects phosphatidylserine externalization on the cell membrane and enables differentiation between live, early apoptotic, late apoptotic, and necrotic cells. In addition to the morphological and physiological assessments, molecular analyses were conducted to examine the expression levels of key apoptosis-related genes, including Caspase-3, Caspase-9, and BAX, as well as the regulatory microRNA miR-34a. Gene expression analysis was performed using Real-time PCR (qPCR). Results: The results of the MTT assay demonstrated that the proliferation of AsPC-1 pancreatic cancer cells was inhibited by treatment with the extract of Artemisia absinthium and the chemotherapeutic drug fluorouracil (5-FU) in a concentration-dependent manner. As the concentration of each treatment increased, cell viability significantly decreased, indicating a marked cytotoxic effect of both the plant extract and the drug. Moreover, a possible synergistic effect between the extract and fluorouracil in suppressing cell proliferation was observed. To determine the mode of cell death induced by these treatments, the Annexin V-FITC/PI assay was performed. The results revealed that a considerable proportion of treated cells underwent programmed cell death (apoptosis), while the percentage of necrotic cells remained relatively low. These findings suggest that the observed reduction in cell viability is mainly mediated through the activation of apoptotic pathways rather than necrosis. Furthermore, real-time PCR analysis showed a significant upregulation in the expression of the regulatory microRNA miR-34a and the apoptosis-related genes Caspase-3, Caspase-9, and BAX in the treated groups compared to the control group. Discussion: The obtained results suggest that Artemisia absinthium extract exerts its cytotoxic effect primarily through the induction of apoptosis rather than necrosis in AsPC-1 pancreatic cancer cells. The observed upregulation of miR-34a, Caspase-3, Caspase-9, and BAX implies activation of intrinsic apoptotic pathways. These findings are consistent with previous studies reporting pro-apoptotic properties of A. absinthium and other Artemisia species. Therefore, the extract may enhance the therapeutic response of pancreatic cancer cells when combined with conventional chemotherapeutic agents such as fluorouracil (5-FU). Conclusion: In conclusion, Artemisia absinthium extract demonstrated strong antiproliferative and apoptosis-inducing effects on AsPC-1 cancer cells in a dose-dependent manner. Its combination with fluorouracil (5-FU) produced a synergistic cytotoxic effect, significantly enhancing cell death through apoptotic signaling. The molecular findings support the potential of this extract as a complementary therapeutic agent. Further studies are recommended to explore its mechanisms and evaluate its efficacy in in vivo models of pancreatic cancer. هدف: پانکراس چهارمین سرطان کشنده جهانی است. ۵-فلورواوراسیل از داروهای شایع شیمی‌درمانی است. گیاه Artemisia absinthium به‌عنوان یک داروی گیاهی ضد سرطان مورد توجه است. این پژوهش تأثیر عصاره متانولی این گیاه را بر بیان miR-34a و ژن‌های BAX, Caspase3, Caspase9 در سلول‌های سرطانی پانکراس AsPC-1 بررسی کرده است. مواد و روش‏ها: میزان بقاء سلول‌های سرطانی، تحت تاثیر عصاره گیاه، داروی فلورواوراسیل و هم افزایی عصاره و دارو با آزمون MTT اندازه گیری و مقدار IC50 بدست آمد. سپس با توجه به مقدار IC50 و غلظت‌های بالاتر و پایین‌تر از آن و برای تعیین نوع مرگ سلولی در گروه های تیمار شده و کنترل از آزمون "Annexin V-FITC "استفاده شد. برای بررسی میزان تغییرات بیان ژن‌های مورد نظر، miR-34a و ژن‌های آپوپتوزی Caspase3، Caspase9 و BAX، از تکنیک Real-time PCR استفاده شد. نتایج با استفاده از تست‌های آماری و در سطح معنی‌داری p<0.05 مورد بررسی قرار گرفت. نتایج: نتایج حاصل از آزمون MTT نشان داد که تکثیر سلول‌های سرطانی AsPC-1 تحت تیمار با عصاره Artemisiaabsinthium و فلورواوراسیل به صورت وابسته به غلظت مهار می‌شود و براساس نتایج تست "Annexin V-FITC"نوع مرگ سلولی در گروه های تیماری، آپوپتوز است و نتایج حاصل از تست " Real-time PCR "نشان دهنده افزایش بیان"miR-34a"و ژن های آپوپتوزی"Caspase-3, Caspase-9, BAX" در گروه های تیماری است. نتیجه‏گیری : نتایج حاصل از این مطالعه تجربی نشان داد که عصاره تام متانولی Artemisia absinthium و فلورواوراسیل به صورت هم افزایی تکثیر سلول های سرطانی Aspc-1 را مهار می‌کند و باعث القای آپوپتوز در این سلول ها می‌شود.

https://jct.araku.ac.ir/article_732844_0e8fbe9cef2000899fb3b95b4655774f.pdf