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 10.61882/JCT.17.1.1 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 <strong>Introduction: </strong>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 <em>PDX1</em> (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.<br><strong>Aim: </strong>The aim of this study was to construct and produce recombinant lentiviral vectors carrying the <em>PDX1</em> 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.<br><strong>Materials and Methods: </strong><em>HEK293T-LentiX</em> 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 <em>PDX1</em> 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.<br><strong>Results: </strong>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 <em>PDX1</em> 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.<br><strong>Discussion: </strong>The study confirmed that lentiviral vectors carrying the <em>PDX1</em> 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 <em>PDX1</em>, 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.<br><strong>Conclusion: </strong>Recombinant lentiviral vectors carrying the <em>PDX1</em> 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. <strong><span dir="RTL" lang="FA">هدف:</span></strong> <span dir="RTL" lang="AR-SA">هدف این پژوهش، تولید ذرات لنتی‌ویروسی نوترکیب حامل ژن</span> <em>PDX1</em> <span dir="RTL" lang="AR-SA">در سلول‌های</span> HEK293T-LentiX <span dir="RTL"> <span lang="AR-SA">و ارزیابی کارایی انتقال آن‌ها به سلول‌های جنینی جوجه بود</span></span>. <strong><span dir="RTL" lang="AR-SA">مواد و روش‏ها: </span></strong><span dir="RTL" lang="AR-SA">برای تولید ویروس، سلول‌های</span> HEK293T-LentiX <span dir="RTL" lang="AR-SA">با سامانه سه‌پلاسمیدی ترانسفکت شدند و بیان</span> GFP <span dir="RTL"> <span lang="AR-SA">با میکروسکوپ فلورس</span></span><span dir="RTL" lang="FA">انس</span><span dir="RTL" lang="AR-SA"> بررسی شد. تیتر ویروس به‌صورت کمی با فلوسایتومتری در سلول‌های</span> HT1080 <span dir="RTL"> <span lang="AR-SA">اندازه‌گیری شد. ذرات لنتی‌ویروسی به سلول‌های فیبروبلاست و سلول‌های زایای اولیه جنین جوجه منتقل شدند و بیان سازه نوترکیب به</span></span>‫<span dir="RTL" lang="AR-SA">کمک تصویر‌برداری فلورسانس ارزیابی شد</span>.<span dir="RTL"> <strong><span lang="AR-SA">نتایج:</span></strong><span lang="AR-SA"> ذرات لنتی ویروسی با تیتر بالایی در سلول‌های</span></span> HEK293T <span dir="RTL" lang="AR-SA">تولید شدند و با استفاده از روش فلوسایتومتری میزان تیتر ویروس ارزیابی و تایید شد. این ویروس نوترکیب با قدرت بالایی به</span>‫<span dir="RTL" lang="AR-SA">درون سلول‌های جنینی جوجه انتقال یافتند. این تیتر ویروسی در سلول‌های</span> HT1080 <span dir="RTL" lang="AR-SA">با استفاده از فلوسایتومتری ارزیابی و تایید شد. وجود ویروس در سلول‌های فیبروبلاست و پانکراسی جنین جوجه مشاهده شد</span>.<span dir="RTL"> <strong><span lang="AR-SA">نتیجه‏گیری:</span></strong><span lang="AR-SA"> ناقل‌های لنتی‌ویروسی حامل ژن</span></span> <em>PDX1</em> <span dir="RTL" lang="AR-SA">که با بهره‌گیری از سامانه</span> CRISPR/Cas9 <span dir="RTL" lang="AR-SA">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</span>. https://jct.araku.ac.ir/article_732178_e795ed03db7962ae52c6117c4da0f4e8.pdf