Disclosure: M. Yang: None. V. Xega: None. M. Zakikhani: None. J. Liu: None.

Matricellular protein CCN5/WISP2 is a novel target of IGF-1 and WNT signaling within the pancreatic islets. Our previous research suggests CCN5 promotes β-cell proliferation and survival through Akt/PKB and focal adhesion kinase signaling pathways. More recently, we have reported sexual dimorphic features of CCN5 gene deletion and overexpression. Specifically, male knockout mice demonstrated improved insulin sensitivity and glucose tolerance upon high-fat diet (HFD)-induced obesity, while females were unaffected (ENDO 2022). On the other hand, male aP2-CCN5 transgenic mice that overexpress CCN5 in adipose tissues were partially protected from HFD-streptozotocin induced diabetes, with improved glucose tolerance; females exhibited impaired glucose tolerance and exacerbated diabetes (ENDO 2023). Our findings indicate that an increased level of CCN5 protects β-cells, but only in male mice. This protection cannot be solely attributed to the pro-islet effect and suggests the involvement of extra-pancreatic and sex-specific roles. This study indirectly screened normal CCN5 gene expression by detecting β-galactosidase activity, measured in X-gal-stained tissues before fixation and sectioning. In order to create the gene deletion through homologous recombination, LacZ was inserted between exons 2 and 5 of the CCN5 gene. As a result, male knockout mice exhibited a distinct blue staining in the pseudostratified columnar epithelium with stereocilia of the epididymis and vas deferens. This type of epithelium comprises a single layer of cells but appears to have multiple layers due to the nuclei being at different levels. The epithelium possesses long projections made of actin filaments and plays a crucial role in absorbing, transporting, and maturing sperm cells. The staining was also clear in Leydig cells of the testis, which produce testosterone, which was confirmed using immunohistochemistry and authentic CCN5 antibody. In female mice, however, only a few cells in the ovary and scattered staining was observed in the endometrial glands of the uterus. Since androgens promote energy expenditure, lipolysis, and insulin sensitivity, knockout or overexpression of CCN5 may potentially affect androgen and/or sperm production, leading to metabolic consequences in males. Our results from in vitro, knockout, and overexpression models support the notion that CCN5 promotes β-cell growth and survival against diabetes and further suggest that it possesses sex-specific, metabolic effects.

Presentation: 6/2/2024