Abstract
Complex phenotypes such as blood pressure regulation involve multiple organ systems, tissues, and specific cell types. Transgenic rodent models with the expression of fluorescent proteins under the control of tissue- and cell-type-specific promoters are powerful tools for identifying and isolating specific cells but have been primarily limited to mice. Our long-term goal is to establish a Cre-driver rat resource for conditional and physiologically predictive rat models of human diseases. We developed two Cre-driver transgenic strains of rats (SS/PodocinCreERT2 and SS/VECadCre) capable of activating a second Cre-sensitive tdTomato reporter transgene integrated into the rat Rosa26 locus in the Dahl salt-sensitive hypertension model background. Cells with reporter activation were identified under fluorescence microscopy or harvested using fluorescence-activated cell sorting (FACS). A tamoxifen-inducible Cre transgene under the control of the Nphs2 (podocin) gene promoter was used to harvest fluorescently labeled podocytes after tamoxifen injection. A constitutive Cre under the control of the Cdh5 (VE-Cadherin) gene promoter was used for the isolation of endothelial cells. Correspondingly, tens to hundreds of thousands of podocytes or endothelial cells were isolated from a single kidney or mesenteric artery. Isolated cells were enriched for specific marker genes and could be used in downstream assays including single-cell transcriptional profiling. These new Cre/reporter dual transgenic rat models provide a much-needed resource for the biomedical research community to study the role of these cell types in a broad range of health and disease modeling studies.
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