Primordial follicle activation in the ovary of Ames dwarf mice.

BACKGROUND: The insulin receptor substrate 1 (IRS1), phosphoinositide 3-kinase (Pi3k), protein kinase B (Akt1), Forkhead Box O3a (FOXO3a) pathway is directly involved in aging and ovarian activation of follicle growth. Therefore, the aim of this work was to measure the expression of genes related to the ovarian pathway for activation of primordial follicles and FOXO3a protein phosphorylation between young and old female Ames dwarf (df/df) and normal (N) mice. METHODS: For this study ovaries from N (n = 10) and df/df (n = 10) female mice were collected at 5-6 months of age and at 21-22 months of age. For immunohistochemistry ovaries from 12 month-old and df/df mice were used. RESULTS: The expression of Irs1, Pi3k, Akt1, mammalian target of rapamycin (Mtor), suppressor of cytokine signaling -2 (Socs2), Socs3 was lower (P < 0.05) in older than younger N mice and not different (P > 0.05) between young and old df/df mice. The expression of Foxo3a was also lower (P < 0.05) in old than younger N and df/df mice and was higher (P < 0.05) in old df/df than N mice. Expression of Amh was lower (P < 0.05) in old than young N and df/df mice and was higher (P = 0.0009) in df/df than N mice. Imunnostaining for p-FOXO3 was lower in df/df than N mice (P < 0.001), although FOXO3 immunostaining was not different (P > 0.05) between df/df and N mice. CONCLUSIONS: In sum, the present study indicates that lower expression of Irs1, Socs2, Socs3, Akt1, Pi3k, Mtor and Foxo3a mRNA in the ovaries of older mice of both genotypes is associated to a reduced ovarian activity revealed by lower expression of Amh mRNA. At the same time, ovaries of old df/df mice maintained higher expression of Foxo3a mRNA, which was associated to higher ovarian activity. We have shown that df/df females have a lower level of p-FOXO3 in oocytes from primordial/primary follicles, an important activator of follicular growth. Therefore, this study strongly indicates that Prop1(df) mutation causes delayed ovarian aging.

Effect of growth hormone receptor gene disruption and PMA treatment on the expression of genes involved in primordial follicle activation in mice ovaries.

The activation of the Pi3k-Akt1-FOXO pathway seems to be involved in the extended longevity observed in growth hormone receptor/growth hormone binding protein knockout (GHRKO) mice and is related to the growth of primordial ovarian follicles. The aim of this work was to measure the expression of genes in the ovaries of GHRKO and normal (N) mice treated with phorbol 12-myristate 13-acetate (PMA), an inhibitor of GH and IRS1 signaling. For this study, a group of N (n = 10) and GHRKO (n = 10) mice, N mice treated (n = 10) or not (n = 10) with PMA, and GHRKO mice treated (n = 10) or not (n = 10) with PMA were used. All were 6-month-old female mice. After the last PMA injection, the ovaries were collected for gene expression analysis. Expression of Amh, Gdf9, and Bmp15 was higher in GHRKO than N mice (P < 0.05), but was not different between PMA-treated N mice (P > 0.10). Expression of Amh and Gdf9 was higher (P < 0.05) for GHRKO PMA-treated mice. In addition, we observed a higher expression of Socs3 (P < 0.001) in GHRKO than N mice and a tendency for increased expression of Foxo3a (P = 0.07). For GHRKO PMA-treated mice, Foxo3a mRNA expression was higher (P = 0.02) and a tendency for higher expression of Mtor (P = 0.06) and Socs3 (P = 0.10) in GHRKO PMA-treated mice was observed. To summarize, the present data further confirm the previous histological observations that GHRKO mice have an ovarian phenotype characteristic of younger mice indicated by higher expression of Amh, Gdf9, and Bmp15 mRNA. In addition, we have shown a higher expression of Socs3 in GHRKO mice and higher Foxo3a expression in PMA-treated GHRKO mice, suggesting a role for these mediators in the process of ovarian aging.

Isolation of simple sequence repeats from groundnut

SSRs have proved to be the most powerful tool for variety identification in groundnut of similar origin, and have much potential in genetic and breeding studies. To facilitate SSR discovery in groundnut, we proposed a highly simplified SSR isolation protocol based on multiple enzyme digestion/ligation, mixed biotin-labeled probes and streptavidin coated magnetic beads hybridization capture strategy. Of the 272 colonies randomly picked for sequencing, 119 were found to have unique SSR inserts.