Shuang-Gang Hu scite author profile

Shuang-Gang Hu

4Publications

12Citation Statements Received

39Citation Statements Given

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Affiliations

Center for Excellence in Molecular Cell Science, Chinese Academy of Sciences, Renji Hospital

Publications

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Molecular cloning and identification of mouse epididymis-specific gene mHong1, the homologue of rat HongrES1

Hu¹,

Du²,

Yao³

et al. 2012

Asian J Androl

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Previous studies have shown that rat epididymis-specific gene HongrES1 plays important roles in sperm capacitation and fertility. In this study, we cloned the mouse homologue gene by sequence alignment and RT-PCR methods and designated it as mHong1. The mHong1 gene is located on chromosome 12p14, spanning five exons. The cDNA sequence consists of 1257 nucleotides and encodes a 419 amino-acid protein with a predicted N-terminal signal peptide of 20 amino acids. The mHong1 mRNA shows similarity with HongrES1 in the expression patterns: (i) specific expression in epididymal tissue, especially in the cauda region; and (ii) androgen-dependence but testicular fluid factor independence. Its protein product shows 71% similarity with HongrES1 and contains a classical serpin domain as does HongrES1. A polyclonal antibody against mHong1 with high specificity and sensitivity was raised. Like HongrES1, the mHong1 protein shows a checker-board expression pattern in the epididymal epithelium and is secreted into the epididymal lumen. The mHong1 protein shows higher glycosylation than HongrES1. Although both of them are deposited onto the sperm head surface, mHong1 is localized to the equatorial segment, which is different from that of HongrES1. The mHong1 protein can be removed from the sperm membrane by high ionic strength and therefore can be classed as an extrinsic membrane protein. Collectively, we conclude that mHong1 is the homologue of HongrES1 and the present work paves the way for establishing animal models to elucidate the precise functions of HongrES1 and mHong1.

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Different Effects of Androgen on the Expression of Fut1, Fut2, Fut4 and Fut9 in Male Mouse Reproductive Tract

Wang

et al. 2013

IJMS

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The α-(1,2) fucosyltransferases (Fut1 and Fut2) and α-(1,3) fucosyltransferases (Fut4, Fut9) are responsible for the synthesis of Lewis X (LeX) and Lewis Y (LeY) conjugated to glycoproteins. We recently reported that these fucosyltransferases were differentially expressed in the reproductive tract of male mouse. Here, we studied the effect of androgen on fucosyltransferase expression through the use of mouse castration models. We found that Fut1 mRNA and Fut4 mRNA were upregulated, while Fut2 mRNA and Fut9 mRNA were downregulated by androgen in the caput epididymis. However, in the vas deferens and prostate, only Fut4 mRNA and Fut2 mRNA were respectively upregulated following exposure to androgen. In the seminal vesicle, all fucosyltransferases, with the exception of Fut9, were upregulated. We identified the androgen receptor binding sites (ARBSs) of Fut2, Fut4 and Fut9 in the caput epididymis. Luciferase assay for these ARBSs is able to provide an indication as to why Fut4 and Fut9 are differently expressed and regulated by androgen, although they catalyze the same α-(1,3) fucose linkage. Our study showed that androgen could differentially regulate the expression of these fucosyltransferases and provided an insight into the characteristic distribution of each fucosyltransferase responsible for LeX/LeY biosynthesis in the male reproductive tract.

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Isolation and characterization of detergent-resistant membranes from rat spermatozoa

Tang

et al. 2014

Asian J Androl

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Monoclonal Antibodies Reveal Novel Localization of SPAG11E in Spermatozoa and the Antifertility Potential of SPAG11E Motifs

Wang

Yang

Chen

et al. 2018

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Shuang-Gang Hu

Molecular cloning and identification of mouse epididymis-specific gene mHong1, the homologue of rat HongrES1

Different Effects of Androgen on the Expression of Fut1, Fut2, Fut4 and Fut9 in Male Mouse Reproductive Tract

Isolation and characterization of detergent-resistant membranes from rat spermatozoa

Monoclonal Antibodies Reveal Novel Localization of SPAG11E in Spermatozoa and the Antifertility Potential of SPAG11E Motifs

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