Sridurga Mithra Prabhu scite author profile

Sridurga Mithra Prabhu

3Publications

95Citation Statements Received

67Citation Statements Given

How they've been cited

120

How they cite others

Affiliations

Monash Institute of Medical Research, Monash University

Publications

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Expression of c-Kit receptor mRNA and protein in the developing, adult and irradiated rodent testis

Prabhu¹,

Meistrich²,

McLaughlin³

et al. 2006

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Germ cell proliferation, migration and survival during all stages of spermatogenesis are affected by stem cell factor signalling through the c-Kit receptor, the expression and function of which are vital for normal male reproductive function. The present study comprehensively describes the c-Kit mRNA and protein cellular expression profiles in germ cells of the postnatal and adult rodent testis, revealing their significant elevation in synthesis at the onset of spermatogenesis. Real-time PCR analysis for both mice and rats matched the cellular mRNA expression profile where examined. Localization studies in normal mouse testes indicated that both c-Kit mRNA and protein are first detectable in differentiating spermatogonia. In addition, all spermatogonia isolated from 8-day-old mice displayed detectable c-Kit mRNA, but 30 -50% of these lacked protein expression. The c-Kit mRNA and protein profile in normal rat testes indicated expression in gonocytes, in addition to differentiating spermatogonia. However, in the irradiated adult rat testes, in which undifferentiated spermatogonia are the only germ cell type, mRNA was also detected in the absence of protein. This persisted at 3 days and 1 and 2 weeks following treatment with gonadotrophin-releasing hormone (GnRH) antagonist to stimulate spermatogenesis recovery. By 4 weeks of GnRH antagonist treatment, accompanying the emergence of differentiating spermatogonia, both mRNA and protein were detected. Based on these observations, we propose that c-Kit mRNA and protein synthesis are regulated separately, possibly by influences linked to testis maturation and circulating hormone levels.

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Expression of Nuclear Transport Importins beta 1 and beta 3 Is Regulated During Rodent Spermatogenesis1

Loveland

Hogarth

Szczepny

et al. 2006

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Spermatogenic differentiation requires progressive gene expression changes, and proteins required for this must be transported into the nucleus. Many of these contain a nuclear localization signal and are likely to be transported by importin protein family members, each of which recognizes and transports distinct cargo proteins. We hypothesized that importins, as modulators of protein nuclear access, would display distinct expression profiles during spermatogenesis, indicating their potential to regulate key steps in cellular differentiation. This was tested throughout testicular development in rodents. Real-time PCR analysis of postnatal mouse testes revealed changing expression levels of Knpb1 (encoding importin beta 1) and Ranbp5 (encoding beta 3) mRNAs, with Knpb1 highest at 26 days postpartum and Ranbp5 highest in Day 26 and adult testis. Their distinctive cellular expression patterns visualized using in situ hybridization and immunohistochemistry were identical in mouse and rat testes where examined. Within the seminiferous epithelium, Knpb1 mRNA and importin beta1 protein were detected within mitotic Sertoli and germ cells during fetal and early postnatal development, becoming restricted to spermatogonia and spermatocytes in adulthood. Importin beta 3 protein in fetal germ cells displayed a striking difference in intracellular localization between male and female gonads. In adult testes, Ranbp5 mRNA was detected in round spermatids and importin beta 3 protein in elongating spermatids. This is the first comprehensive in situ demonstration of developmentally regulated synthesis of nuclear transport components. The contrasting expression patterns of importins beta 1 and 3 identify them as candidates for regulating nuclear access of factors required for developmental switches.

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216. c-kit Expression study: timing of onset in rodent testis and irradiated rat testis model

Prabhu

Meistrich

Mendis

et al. 2005

Reprod. Fertil. Dev.

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Primordial germ cell and spermatogonial cell function is essential for normal male fertility. These cells require Sertoli–germ cell interactions, specifically somatic cell-derived stem cell factor (SCF) that acts through the c-kit receptor to govern primordial germ cell migration in the foetus, spermatogonial differentiation during puberty and adulthood, and Leydig cell steroidogenesis. We performed a comprehensive study of the c-kit mRNA expression profile in the pre- and post-pubertal mouse and rat testes by in situ hybridisation. Expression of c-kit mRNA was first visualised in germ cells after birth, with the levels concordant with the number and appearance of the differentiated spermatogonial subtypes in both the rat and the mouse. We also studied c-kit expression in the irradiated adult rat testis, in which only undifferentiated spermatogonia are present. After treatment with Cetrorelix, GnRH antagonist (3 days, 1, 2 and 4 weeks) germ cell maturation is re-initiated. Expression of c-kit messenger RNA was observed in the undifferentiated spermatogonia in both untreated and treated testes sections. In contrast, c-kit protein expression was undetectable until 4 weeks of hormone treatment. This suggests that c-kit mRNA and protein expression are differentially regulated and that protein expression relates to somatic cell function.

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