Analysis of PPP1R11 expression in granulosa cells during developmental follicles of yak and its effects on cell function.

The aims of this study were to analyse the protein phosphatase 1 regulatory subunit 11 (PPP1R11) expression and cellular localization in yak follicles and investigate its effects on cell proliferation, apoptosis and oestrogen secretion in granulosa cells (GCs). Ten healthy and non-pregnant female yaks (4-year-old) were used as experimental animals. The mRNA relative expression level of PPP1R11 in GCs from small (<3.0 mm), medium (3.0-5.9 mm) and large (6.0-9.0 mm) follicles was detected by RT-qPCR, and the cellular localization of PPP1R11 protein was detected by immunohistochemistry staining (IHC). After isolation, culture and identification of yak GCs in vitro, si-PPP1R11 and si-NC (negative control) were transfected into GCs. RT-qPCR and immunofluorescence staining were used to evaluate the interference efficiency, and ELISA was performed to detect oestrogen concentration. Then, EdU staining and TUNEL staining were conducted to analyse cell proliferation and apoptosis. In addition, the oestrogen synthesis, proliferation- and apoptosis-related genes were detected by RT-qPCR after knockdown PPP1R11. The results showed that PPP1R11 is mainly located in ovarian GCs, and the expression levels of PPP1R11 in GCs from large follicles were significantly higher than that from medium and small follicles. Transfection of si-PPP1R11 into GCs could significantly inhibit the expression of PPP1R11. Interestingly, the oestrogen secretion ability and the expression level of oestrogen pathway-related genes (STAR, CYP11A1, CYP19A1 and HSD17B1) were also significantly downregulated. Moreover, the proportion of positive cells was decreased, and cellular proliferation-related genes (PCNA, CCNB1 and CDC25A) were significantly downregulated after knockdown PPP1R11. However, the proportion of apoptotic cells was increased, and apoptosis-related genes (BAX, CASP3 and P53) were significantly upregulated. Taken together, this study was the first revealed the expression and cellular localization of PPP1R11 in yak follicles. Interference PPP1R11 could reduce oestrogen secretion, inhibit proliferation and promote apoptosis in GCs, which provided a basis for further studies on the regulatory mechanism of PPP1R11 in follicle development.

MicroRNA-34b-5p targets PPP1R11 to inhibit proliferation and promote apoptosis in cattleyak Sertoli cells by regulating specific signaling pathways.

Cattleyaks, a hybrid of (♂) and yak (♀), exhibit the marked productivity and adaptability of plateau, but suffer from male infertility. Small non-coding RNAs, especially miRNAs, play crucial roles in spermatogenesis and affect the growth of Sertoli cells (SCs). The objective of the present study was to explore the interaction between miR-34b-5p and protein phosphatase 1 regulatory inhibitor subunit 11 (PPP1R11) and its effect on cattleyak SCs. RT-qPCR was used to determine the expression pattern of miR-34b-5p and PPP1R11, while the cellular and subcellular localization of PPP1R11 was determined by immunohistochemistry and immunocytochemistry. The interaction between MiR-34b-5p and PPP1R11 was evaluated by immunofluorescence, proliferation, apoptosis, and western blotting assays. The potential binding sites between miR-34b-5p and PPP1R11 were uncovered through targeted search of an online database, and verified using a dual luciferase reporter system. Our data show that miR-34b-5p is differentially expressed in the testes and SCs of cattleyaks compared to yaks. Overexpression of miR-34b-5p in SCs suppressed proliferation and induced apoptosis, while the effects of miR-34b-5p knockdown were the reverse. The 3'UTR of PPP1R11 was identified as a potential target site of miR-34b-5p, and this was validated by online database searches and our data from the dual-luciferase reporter assay, and it displayed an inverse expression pattern to miR-34b-5p in SCs. The effects of silencing PPP1R11 by siRNA were similar to the results of miR-34b-5p upregulation, but significantly different from miR-34b-5p downregulation in cattleyak SCs. The effects with PPP1R11 overexpression were opposite, suggesting a novel biofunctional role of PPP1R11 inactivation in depressing cattleyak SCs growth. Lastly, we confirmed that miR-34b-5p inhibited PPP1R11 expression and induced apoptosis by regulating proliferation- and apoptosis-related genes in SCs. Thus, miR-34b-5p regulates the apoptosis and proliferation of cattleyak SCs via targeting PPP1R11, which can provide an innovative direction for exploring the mechanism of cattleyak male sterility.

Polymorphisms of SORBS1 Gene and Their Correlation with Milk Fat Traits of Cattleyak.

This study aimed to find the SNPs in the SORBS1 gene of cattleyak, analyze the relationship between its polymorphisms and the milk fat traits, and find potential molecular markers for the milk fat traits of cattleyak. The polymorphism of the SORBS1 gene in 350 cattleyak from Hongyuan County (Sichuan, China) were detected by PCR and DNA sequencing, and the correlation between these SNPs and the milk production traits of cattleyak was analyzed. The results showed that there were nine SNPs in the CDS and their adjacent non-coding regions of the SORBS1 gene, and all SNPs have three genotypes. The correlation analysis found that the genotypes with superior milk fat traits in the other eight alleles were homozygous genotypes with a high genotype frequency except the g.96284 G > A (c.3090 G > A) (p < 0.05). However, at locus g.96284 G > A, the milk fat percentage, monounsaturated fatty acids (MUFAs), polyunsaturated fatty acids (PUFAs) and saturated fatty acids (SFAs) of the GA genotype were significantly higher than that of GG and AA genotypes (p < 0.05). Among these SNPs, three SNPs (g.6256 C > T (c.298 C > T), g.24791 A > G (c.706 A > G) and g.29121 A > G (c.979 A > G)) caused the amino acids change. The genotypes of the three SNPs consist of three haplotypes and four diplotypes. The amino acid mutation degree of diplotype H1-H1 (CCAAAA) was the highest, and its milk fat percentage, MUFAs, PUFAs and SFAs were also the highest (p < 0.05). Taken together, we found nine SNPs in the SORBS1 gene that are closely related to the milk fat traits of cattleyak. Moreover, the mutation of amino acids caused by SNPs had positive effects on the milk fat traits of cattleyak. H1-H1 is the dominant diplotype which significantly related to the milk fat traits of cattleyak. This study provides a new molecular marker and theoretical basis for screening the milk fat traits of cattleyak.