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1.
Reproduction ; 158(2): 181-197, 2019 08.
Article in English | MEDLINE | ID: mdl-31146259

ABSTRACT

Mammalian SPAG6, the orthologue of Chlamydomonas reinhardtii PF16, is a component of the central apparatus of the '9 + 2' axoneme that controls ciliary/flagellar motility, including sperm motility. Recent studies revealed that SPAG6 has functions beyond its role in the central apparatus. Hence, we reexamined the role of SPAG6 in male fertility. In wild-type mice, SPAG6 was present in cytoplasmic vesicles in spermatocytes, the acrosome of round and elongating spermatids and the manchette of elongating spermatids. Spag6-deficient testes showed abnormal spermatogenesis, with abnormalities in male germ cell morphology consistent with the multi-compartment pattern of SPAG6 localization. The armadillo repeat domain of mouse SPAG6 was used as a bait in a yeast two-hybrid screen, and several proteins with diverse functions appeared multiple times, including Snapin, SPINK2 and COPS5. Snapin has a similar localization to SPAG6 in male germ cells, and SPINK2, a key protein in acrosome biogenesis, was dramatically reduced in Spag6-deficient mice which have defective acrosomes. SPAG16L, another SPAG6-binding partner, lost its localization to the manchette in Spag6-deficient mice. Our findings demonstrate that SPAG6 is a multi-functional protein that not only regulates sperm motility, but also plays roles in spermatogenesis in multiple cellular compartments involving multiple protein partners.


Subject(s)
Microtubule Proteins/metabolism , Spermatogenesis , Spermatozoa/metabolism , Acrosome/metabolism , Animals , CHO Cells , Cricetulus , Infertility, Male/etiology , Infertility, Male/metabolism , Infertility, Male/pathology , Male , Mice, Knockout , Spermatozoa/ultrastructure , Testis/metabolism , Vesicular Transport Proteins/metabolism
2.
Dev Biol ; 432(1): 125-139, 2017 12 01.
Article in English | MEDLINE | ID: mdl-28964737

ABSTRACT

Intraflagellar transport (IFT) is an evolutionarily conserved mechanism essential for the assembly and maintenance of most eukaryotic cilia and flagella. In mice, mutations in IFT proteins have been shown to cause several ciliopathies including retinal degeneration, polycystic kidney disease, and hearing loss. However, little is known about its role in the formation of the sperm tail, which has the longest flagella of mammalian cells. IFT27 is a component of IFT-B complex and binds to IFT25 directly. In mice, IFT27 is highly expressed in the testis. To investigate the role of IFT27 in male germ cells, the floxed Ift27 mice were bred with Stra8-iCre mice so that the Ift27 gene was disrupted in spermatocytes/spermatids. The Ift27: Stra8-iCre mutant mice did not show any gross abnormalities, and all of the mutant mice survived to adulthood. There was no difference between testis weight/body weight between controls and mutant mice. All adult homozygous mutant males examined were completely infertile. Histological examination of the testes revealed abnormally developed germ cells during the spermiogenesis phase. The epididymides contained round bodies of cytoplasm. Sperm number was significantly reduced compared to the controls and only about 2% of them remained significantly reduced motility. Examination of epididymal sperm by light microscopy and SEM revealed multiple morphological abnormalities including round heads, short and bent tails, abnormal thickness of sperm tails in some areas, and swollen tail tips in some sperm. TEM examination of epididymal sperm showed that most sperm lost the "9+2″ axoneme structure, and the mitochondria sheath, fibrous sheath, and outer dense fibers were also disorganized. Some sperm flagella also lost cell membrane. Levels of IFT25 and IFT81 were significantly reduced in the testis of the conditional Ift27 knockout mice, and levels of IFT20, IFT74, and IFT140 were not changed. Sperm lipid rafts, which were disrupted in the conditional Ift25 knockout mice, appeared to be normal in the conditional Ift27 knockout mice. Our findings suggest that like IFT25, IFT27, even though not required for ciliogenesis in somatic cells, is essential for sperm flagella formation, sperm function, and male fertility in mice. IFT25 and IFT27 control sperm formation/function through many common mechanisms, but IFT25 has additional roles beyond IFT27.


Subject(s)
Intracellular Signaling Peptides and Proteins/physiology , Spermatogenesis/physiology , rab GTP-Binding Proteins/physiology , Animals , Axoneme/metabolism , Biological Transport , Cell Differentiation/physiology , Cilia/metabolism , Fertility/physiology , Flagella/metabolism , Flagella/physiology , Intracellular Signaling Peptides and Proteins/metabolism , Male , Mice , Mice, Knockout , Protein Binding , Spermatozoa/metabolism , Spermatozoa/physiology , Testis/metabolism , Testis/physiology , rab GTP-Binding Proteins/metabolism
3.
BMC Mol Biol ; 18(1): 2, 2017 01 31.
Article in English | MEDLINE | ID: mdl-28137312

ABSTRACT

BACKGROUND: The mammalian sperm-associated antigen 16 gene (Spag16) uses alternative promoters to produce two major transcript isoforms (Spag16L and Spag16S) and encode proteins that are involved in the cilia/flagella formation and motility. In silico analysis of both mouse and human SPAG16L promoters reveals the existence of multiple putative SOX5 binding sites. Given that the SOX5 gene encodes a 48-kDa transcription factor (S-SOX5) and the presence of putative SOX5 binding sites at the SPAG16L promoter, regulation of SPAG16L expression by S-SOX5 was studied in the present work. RESULTS: S-SOX5 activated human SPAG16L promoter activity in the human bronchial epithelia cell line BEAS-2B cells. Mutation of S-SOX5 binding sites abolished the stimulatory effect. Overexpression of S-SOX5 resulted in a significant increase in the abundance of SPAG16L transcripts whereas silencing of S-SOX5 by RNAi largely reduced the SPAG16L expression. Chromatin immunoprecipitation assays showed that S-SOX5 directly interacts with the SPAG16L promoter. CONCLUSION: S-SOX5 regulates transcription of human SPAG16L gene via directly binding to the promoter of SPAG16L. It has been reported that expression of sperm-associated antigen 6 (SPAG6), encoding another axonemal protein, is activated by S-SOX5. Therefore, S-SOX5 may regulate formation of motile cilia/flagella through globally mediating expression of genes encoding axonemal proteins.


Subject(s)
Microtubule-Associated Proteins/genetics , SOXD Transcription Factors/metabolism , Transcriptional Activation , Cell Line , Humans , Mutation , Promoter Regions, Genetic , Protein Isoforms/genetics , Protein Isoforms/metabolism , RNA Interference , RNA, Messenger/genetics , Respiratory Mucosa/cytology , Respiratory Mucosa/metabolism , SOXD Transcription Factors/genetics
4.
Zhonghua Nan Ke Xue ; 22(7): 591-595, 2016 Jul.
Article in Chinese | MEDLINE | ID: mdl-28965374

ABSTRACT

OBJECTIVE: To construct a GFP-fused mouse Parkin co-regulated gene (PACRG) baculovirus recombinant PACRG/GFP-pFastBac1 vector and express the fusion protein in Sf9 insect cells. METHODS: Full-length mouse PACRG cDNA was amplified by PCR and cloned in frame to the vector pFastBac1 with eGFP (rpFBac-PACRG-GFP recombinant vector). The plasmid was transformed into DH10Bac cells to obtain the recombinant bacmid plasmid, the bacmid was transfected into Sf9 insect cells, and the expressed PACRG/GFP fusion protein was analyzed by Western blot and fluorescence microscopy. RESULTS: The construction of the PACRG/GFP-pFastBac1 baculovirus plasmid was confirmed by sequencing and restriction enzyme digestion. Western blot showed the expression of the fusion protein carrying a green fluorescence in the Sf9 insect cells. CONCLUSIONS: Conclusion: A PACRG/GFP-pFastBac1 recombinant baculovirus vector was successfully constructed and the fusion protein was highly expressed in the Sf9 insect cells. Our findings have provided a basis for further studies on the structure of the PACRG protein and regulation of spermatogenesis.


Subject(s)
Baculoviridae , Genetic Vectors , Proteins/metabolism , Recombinant Fusion Proteins/biosynthesis , Animals , Blotting, Western , DNA, Complementary , Green Fluorescent Proteins/biosynthesis , Mice , Microfilament Proteins , Molecular Chaperones , Plasmids , Polymerase Chain Reaction , Proteins/genetics , Sf9 Cells , Transfection
5.
Zhonghua Nan Ke Xue ; 22(12): 1059-1064, 2016 Dec.
Article in Chinese | MEDLINE | ID: mdl-29282908

ABSTRACT

OBJECTIVE: To construct eukaryotic expression plasmids of the Tac1 gene and explore the interaction between TAC1 and sperm-associated antigen 6 (SPAG6). METHODS: RNA was extracted from the heart, liver, spleen, lung, kidney, brain, muscle, and testis of 10 Kunming male mice and, after reverse transcription into cDNA, the expression of Tac1 in the above tissues was observed by RT-PCR. Tac1/pEGFP-N2 and Tac1/pGADT7 recombinant plasmids were constructed and Tac1/pEGFP-N2 was transfected into CHO and COS-1 cells, followed by localization and detection of the protein expression of TAC1 by immunofluorescence staining and Western blot. The interaction between TAC1 and SPAG6 was determined by yeast two-hybrid experiment and Western blot. RESULTS: Tac1 was expressed mainly in the testis, brain and heart. The results of restriction enzyme digestion and sequencing indicated successful construction of the recombinant plasmids, with the restriction fragment length of 390 bp. TAC1 was localized in the whole body of the CHO cells when transfected alone, but expressed in the microtubule of the cells when cotransfected with SPAG6, with the molecular weight of 40 000. Yeast two-hybrid experiment showed the colonies of TAC1 and SPAG6 on the culture plate without Leu, Trp and His, both contained in the yeast fusion protein. CONCLUSIONS: The Tac1 recombinant plasmid was constructed successfully and the interaction between TAC1 and SPAG6 was confirmed with the plasmid.


Subject(s)
Microtubule Proteins/physiology , Tachykinins/physiology , Testis/metabolism , Animals , Blotting, Western , Brain/metabolism , CHO Cells , Cricetinae , Cricetulus , DNA, Complementary , Male , Mice , Myocardium/metabolism , Plasmids , Recombinant Proteins/metabolism , Transfection
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