Abstract
Abstract Microglia are resident macrophages of the central nervous system (CNS) and have crucial roles in normal brain homeostasis, function, and immune response. Microglia play key roles in the healthy brain, ranging from phagocytosis of dying neurons and CNS debris to modulating adaptability. The role of microglia has been well documented but their specific contributions to the development and progression of cancers, such as glioblastoma, have recently garnered wide attention. The zebrafish have proven novel tool for modeling innate immune responses. A macrophage-specific marker mpeg1 and its promoter are used in mpeg1-driven transgenes. mpeg1-driven transgenes mpeg1:mCherryFP are expressed in macrophage-lineage cells that do not express neutrophil-marking transgenes. These zebrafish transgenes contribute to the fields of inflammation, infection, and leukocyte biology. We have recently developed a novel transparent transgenic homozygous strain Tg(6xNF-kB:EGFP); Casper(roy−/−, nacre−/−) of zebrafish to the in-vivo study of NF-kB activity under normal and inflammation stage at the cellular, organ-specific and whole organism level. To perform an in-vivo study of microglial function, we are developing Casper;mpeg1:mCherryFP microglia specific strain and integrating with newly developed Tg(6xNF-kB:EGFP); Casper(roy−/−, nacre−/−) strain through crossbreeding of Casper and transgenic zebrafish. We have generated F1 generation of newly developed strains of Casper;mpeg1:mCherryFP and Tg(6xNF-kB:EGFP);Casper. The presence of fluorescence mCherry and GFP, in crossbred progeny was identified through the screening of larvae at 72 HPF stage. The expression of these fluorescent proteins determines the presence of the reporter genes. F1 generation confirmed heterozygous and allowed them to grow into adults to breed transparent transgenic strain to get F2 generation. This process will be continued to F2, F3, F4, and F5 generation until achieving homozygous progeny. This model allows for in-vivo examination of microglia functional morphology by using fluorescent and confocal microscopy. This novel transgenic model will be applied to identify novel anti-inflammatory drug inhibitors in NF-kB pathophysiology for glioblastoma and cardio-oncology experimental therapeutics. Citation Format: Surendra K. Rajpurohit, Sai Nasanally, Simran Hotwani, Taitum Gossman, Keshu Bhatt, Aiden Van Derhei, Rohan Pasi, Devan-Anmol Manhiani, Kirk Kimmerling, Balakrishna L. Lokeshwar. Development of transparent transgenic zebrafish model to study CNS microglia and NF-kB activity in glioblastoma [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2024; Part 1 (Regular Abstracts); 2024 Apr 5-10; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2024;84(6_Suppl):Abstract nr 1432.
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