Patient-derived xenograft (PDX) animal models allow the exogenous growth of human tumors, offering an irreplaceable preclinical tool for oncology research. Mice are the most commonly used host for human PDX models, however their small body size limits the xenograft growth, sample collection, and drug evaluation. Therefore, we sought to develop a novel rat model that could overcome many of these limitations. We knocked out Rag1, Rag2, and Il2rg in Sprague Dawley (SD) rats by clustered regularly interspaced short palindromic repeats (CRISPR)-CRISPR-associated protein 9 technology. The development of lymphoid organs is significantly impaired in Rag1Rag2Il2rg (designated as SD-RG) rats. Consequently, SD-RG rats are severely immunodeficient with an absence of mature T, B, and NK cells in the immune system. After subcutaneous injection of tumor cell lines of different origin, such as NCI-H460, U-87MG, and MDA-MB-231, the tumors grow significantly faster and larger in SD-RG rats than in nonobese diabetic- Cg-Prkdc Il2rg/SzJ mice. Most important of all, we successfully established a PDX model of lung squamous cell carcinoma in which the grafts recapitulate the histopathologic features of the primary tumor for several passages. In conclusion, the severely immunodeficient SD-RG rats support fast growth of PDX compared with mice, thus holding great potential to serve as a new model for oncology research.-He, D., Zhang, J., Wu, W., Yi, N., He, W., Lu, P., Li, B., Yang, N., Wang, D., Xue, Z., Zhang, P., Fan, G., Zhu, X. A novel immunodeficient rat model supports human lung cancer xenografts.
Thyroid stimulating hormone receptor (TSHR), a G-protein-coupled receptor, is important for thyroid development and growth. In several cases, frameshift and/or nonsense mutations in TSHR were found in the patients with congenital hypothyroidism (CH), however they have not been functionally studied in an animal model. In the present work, we generated a unique TshrDf/Df rat model that recapitulates the phenotypes in TSHR Y444X patient by CRISPR/Cas genome editing technology. In this rat model, TSHR is truncated at the second transmembrane domain, leading to CH phenotypes as what was observed in the patients, including dwarf, thyroid aplasia, infertility, TSH resistant as well as low serum thyroid hormone levels. The phenotypes can be reversed, at least partially, by levothyroxine (L-T4) treatment after weaning. The thyroid development is severely impaired in the TshrDf/Df rats due to the suppression of the thyroid specific genes, i.e., thyroperoxidase (Tpo), thyroglobulin (Tg) and sodium iodide symporter (Nis), at both mRNA and protein levels. In conclusion, the TshrDf/Df rat serves as a brand new genetic model to study CH in human, and will greatly help to shed light into the development of terminal organs that are sensitive to thyroid hormones.
Nonalcoholic steatohepatitis (NASH) is an aggressive liver disease threatening human health, yet no medicine is developed to treat this disease. In this study, we first discovered that Leptin mutant rats ( LepΔI14/ΔI14) exhibit characteristic NASH phenotypes including steatosis, lymphocyte infiltration, and ballooning after postnatal week 16. We then examined NASH progression by performing an integrated analysis of hepatic transcriptome in Leptin-deficient rats from postnatal 4 to 48 weeks. Initially, simple steatosis in LepΔI14/ΔI14 rats were observed with increased expression of the genes encoding for rate-limiting enzymes in lipid metabolism such as acetyl-CoA carboxylase and fatty acid synthase. When NASH phenotypes became well developed at postnatal week 16, we found gene expression changes in insulin resistance, inflammation, reactive oxygen species and endoplasmic reticulum stress. As NASH phenotypes further progressed with age, we observed elevated expression of cytokines and chemokines including C-C motif chemokine ligand 2, tumor necrosis factor ɑ, interleukin-6, and interleukin-1β together with activation of the c-Jun N-terminal kinase and nuclear factor-κB pathways. Histologically, livers in LepΔI14/ΔI14 rats exhibited increased cell infiltration of MPO+ neutrophils, CD8+ T cells, CD68+ hepatic macrophages, and CCR2+ inflammatory monocyte-derived macrophages associated with macrophage polarization from M2 to M1. Subsequent cross-species comparison of transcriptomes in human, rat, and mouse NASH models indicated that Leptin-deficient rats bear more similarities to human NASH patients than previously established mouse NASH models. Taken together, our study suggests that LepΔI14/ΔI14 rats are a valuable pre-clinical rodent model to evaluate NASH drug safety and efficacy.
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