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Weipeng Xiong Department of Cell Biology, School of Basic Medicine, Peking Union Medical College, Institute of Chinese Basic Medical Sciences, Chinese Academy of Medical Sciences, 5 Dong Dan San Tiao, Beijing 100005, People's Republic of China

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Haikun Wang Department of Cell Biology, School of Basic Medicine, Peking Union Medical College, Institute of Chinese Basic Medical Sciences, Chinese Academy of Medical Sciences, 5 Dong Dan San Tiao, Beijing 100005, People's Republic of China

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Hui Wu Department of Cell Biology, School of Basic Medicine, Peking Union Medical College, Institute of Chinese Basic Medical Sciences, Chinese Academy of Medical Sciences, 5 Dong Dan San Tiao, Beijing 100005, People's Republic of China

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Yongmei Chen Department of Cell Biology, School of Basic Medicine, Peking Union Medical College, Institute of Chinese Basic Medical Sciences, Chinese Academy of Medical Sciences, 5 Dong Dan San Tiao, Beijing 100005, People's Republic of China

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Daishu Han Department of Cell Biology, School of Basic Medicine, Peking Union Medical College, Institute of Chinese Basic Medical Sciences, Chinese Academy of Medical Sciences, 5 Dong Dan San Tiao, Beijing 100005, People's Republic of China

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Apoptotic spermatogenic cells and residual bodies are phagocytosed and degraded by Sertoli cells during mammalian spermatogenesis. The meaning of this event remains to be clarified. In this report, we demonstrate that apoptotic spermatogenic cells and residual bodies can be used to produce ATP by Sertoli cells after phagocytosis of them. Sertoli cells produced the highest level of ATP compared with other testicular cells. Phagocytosis assay in vitro showed that engulfment of apoptotic spermatogenic cells increases ATP production by Sertoli cells. The increased ATP production was detected in seminiferous tubules at the stages where phagocytosis occurs. Induced apoptosis of spermatogenic cells in vivo increased ATP production in seminiferous tubules. The augmentation of ATP production both in vitro and in vivo associated with the lipid formation in Sertoli cells after phagocytosis of apoptotic spermatogenic cells. The lipid β-oxidation was a predominant pathway to produce ATP in Sertoli cells. We conclude that after phagocytosis by Sertoli cells, apoptotic spermatogenic cells are degraded to form lipids that are then used to produce ATP. The results suggest that apoptotic spermatogenic cells can be energy sources for Sertoli cells that may define a novel meaning of spermatogenic cell death.

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Yongmei Chen
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Huizhen Wang
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Nan Qi
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Hui Wu
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Weipeng Xiong
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Jing Ma
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Qingxian Lu Department of Cell Biology, Department of Ophthalmology and Visual Sciences, School of Basic Medicine, Peking Union Medical College, Institute of Basic Medical Sciences, Chinese Academy of Medical Sciences, 5 Dong Dan San Tiao, Beijing 100005, People's Republic of China

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Daishu Han
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Mice lacking TYRO3, AXL and MER (TAM) receptor tyrosine kinases (RTKs) are male sterile. The mechanism of TAM RTKs in regulating male fertility remains unknown. In this study, we analyzed in more detail the testicular phenotype of TAM triple mutant (TAM−/−) mice with an effort to understand the mechanism. We demonstrate that the three TAM RTKs cooperatively regulate male fertility, and MER appears to be more important than AXL and TYRO3. TAM−/− testes showed a progressive loss of germ cells from elongated spermatids to spermatogonia. Young adult TAM−/− mice exhibited oligo-astheno-teratozoospermia and various morphological malformations of sperm cells. As the mice aged, the germ cells were eventually depleted from the seminiferous tubules. Furthermore, we found that TAM−/− Sertoli cells have an impaired phagocytic activity and a large number of differentially expressed genes compared to wild-type controls. By contrast, the function of Leydig cells was not apparently affected by the mutation of TAM RTKs. Therefore, we conclude that the suboptimal function of Sertoli cells leads to the impaired spermatogenesis in TAM−/− mice. The results provide novel insight into the mechanism of TAM RTKs in regulating male fertility.

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Weipeng Xiong
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Yongmei Chen
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Huizhen Wang
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Haikun Wang
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Hui Wu
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Qingxian Lu Department of Cell Biology, Department of Ophthalmology and Visual Sciences, School of Basic Medicine, Peking Union Medical College, Institute of Chinese Basic Medical Sciences, Chinese Academy of Medical Sciences, 5 Dong Dan San Tiao, Beijing 100005, People's Republic of China and

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Daishu Han
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The apoptotic spermatogenic cells and residual bodies are phagocytosed and degraded by Sertoli cells during spermatogenesis. The mechanisms of this process are largely unknown. Here, we demonstrate that Gas6 and its receptors, the Tyro 3 subfamily of receptor tyrosine kinases (RTKs; Tyro 3, Axl, and Mer), regulate the phagocytic function of Sertoli cells. The phagocytic ability of Sertoli cells increased by five times in the presence of Gas6 in serum-free medium when compared with controls. The Sertoli cells lacking Mer showed a 35% reduction in phagocytosis of apoptotic spermatogenic cells when compared with wild-type (WT) controls, whereas the Sertoli cells lacking Tyro 3 or Axl exhibited phagocytic activity comparable with the controls. Notably, the Sertoli cells lacking all three members of the Tyro 3 RTK subfamily showed a dramatic decrease in phagocytic ability of 7.6-fold when compared with WT Sertoli cells. The deficiency in phagocytosis by the triple-mutant Sertoli cells was due to the deficit in binding of the Sertoli cells to apoptotic germ cells. These findings suggest that Mer is responsible for triggering phagocytosis of apoptotic spermatogenic cells by Sertoli cells and that Tyro 3, Axl, and Mer participate in recognizing and binding apoptotic germ cells by Sertoli cells in a redundant manner. Gas6 is a functional ligand of the Tyro 3 RTK subfamily in mediating phagocytic ability of Sertoli cells.

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Huizhen Wang Department of Cell Biology, School of Basic Medicine, Peking Union Medical College, Institute of Basic Medical Sciences, Chinese Academy of Medical Sciences, 5 Dong Dan San Tiao, Beijing 100005, People’s Republic of China

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Haikun Wang Department of Cell Biology, School of Basic Medicine, Peking Union Medical College, Institute of Basic Medical Sciences, Chinese Academy of Medical Sciences, 5 Dong Dan San Tiao, Beijing 100005, People’s Republic of China

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Weipeng Xiong Department of Cell Biology, School of Basic Medicine, Peking Union Medical College, Institute of Basic Medical Sciences, Chinese Academy of Medical Sciences, 5 Dong Dan San Tiao, Beijing 100005, People’s Republic of China

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Yongmei Chen Department of Cell Biology, School of Basic Medicine, Peking Union Medical College, Institute of Basic Medical Sciences, Chinese Academy of Medical Sciences, 5 Dong Dan San Tiao, Beijing 100005, People’s Republic of China

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Quanhong Ma Department of Cell Biology, School of Basic Medicine, Peking Union Medical College, Institute of Basic Medical Sciences, Chinese Academy of Medical Sciences, 5 Dong Dan San Tiao, Beijing 100005, People’s Republic of China

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Jing Ma Department of Cell Biology, School of Basic Medicine, Peking Union Medical College, Institute of Basic Medical Sciences, Chinese Academy of Medical Sciences, 5 Dong Dan San Tiao, Beijing 100005, People’s Republic of China

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Yehua Ge Department of Cell Biology, School of Basic Medicine, Peking Union Medical College, Institute of Basic Medical Sciences, Chinese Academy of Medical Sciences, 5 Dong Dan San Tiao, Beijing 100005, People’s Republic of China

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Daishu Han Department of Cell Biology, School of Basic Medicine, Peking Union Medical College, Institute of Basic Medical Sciences, Chinese Academy of Medical Sciences, 5 Dong Dan San Tiao, Beijing 100005, People’s Republic of China

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During spermatogenesis, more than half of the differentiating spermatogenic cells undergo apoptosis before they mature into spermatozoa. Ultrastructure studies showed that the formation of lipid droplets in Sertoli cells was associated with phagocytosis of residual bodies and apoptotic germ cells by Sertoli cells. Here, a relationship between the phagocytosis of apoptotic spermatogenic cells and lipid droplet formation in Sertoli cells was studied in vitro by Oil Red O (ORO) staining. The results confirmed that the formation of lipid droplets was a result of phagocytosis of apoptotic spermatogenic cells in Sertoli cells. By comparing phagocytosis of apoptotic spermatogenic cells and thymocytes by Sertoli cells to that by macrophages, we demonstrated that the lipid droplets accumulation in phagocytes depended on phagocytosed apoptotic cell type, but not phagocyte type. However, the size of lipid droplets was related to the type of phagocytes. By this approach, we found that Sertoli cells at different postnatal stages of development had a similar phagocytic ability. These results suggested that the detection of lipid droplets by ORO staining was a practical method to evaluate the phagocytic functions of Sertoli cells in vitro. This approach could also be considered as an in vitro model to study the lipid formation, metabolism, and function in Sertoli cells.

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Pengpeng Ma Department of Cell Biology, Institute of Basic Medical Sciences, Chinese Academy of Medical Sciences and Peking Union Medical College, Beijing 100005, China

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Yehua Ge Department of Cell Biology, Institute of Basic Medical Sciences, Chinese Academy of Medical Sciences and Peking Union Medical College, Beijing 100005, China

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Shali Wang Department of Cell Biology, Institute of Basic Medical Sciences, Chinese Academy of Medical Sciences and Peking Union Medical College, Beijing 100005, China

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Jing Ma Department of Cell Biology, Institute of Basic Medical Sciences, Chinese Academy of Medical Sciences and Peking Union Medical College, Beijing 100005, China

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Shepu Xue Department of Cell Biology, Institute of Basic Medical Sciences, Chinese Academy of Medical Sciences and Peking Union Medical College, Beijing 100005, China

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Daishu Han Department of Cell Biology, Institute of Basic Medical Sciences, Chinese Academy of Medical Sciences and Peking Union Medical College, Beijing 100005, China

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Transplantation of spermatogonial stem cells in cross-species has been widely used to study the function of Sertoli cells and the effect of phylogenetic distance between donor and recipient animals on the outcome of spermatogonial transplantation, whereas there have been only a few reports on the transplantation of testis tissue. The objective of the present study was to examine the development of grafted testes and the kinetics of spermatogenesis following syngeneic testicular transplantation in both male and female recipient Balb/c mice in an effort to establish an in vivo culture system and to compare the effects of host sex on spermatogenesis. The testes from 5-day-old Balb/c mice were transplanted under the dorsal skin of four-week-old mice. Twenty male and twenty female Balb/c mice were used as the hosts and each host received 4 grafts. The recipient mice were killed at 1, 2, 3, 5, 7, 9, 12 and 15 weeks after transplantation. The graft survival rate and graft size were measured. The status of spermatogenesis was assessed by histological analyses. The expression of the spermatid-specific Protamine-2 gene was examined by RT-PCR. Overall, 70.3% of the testicular grafts in male hosts and 67.2% in female hosts survived. All recovered grafts had increased in volume, some of them had increased by more than 30-fold. The architecture of the seminiferous tubules in female hosts appeared to be better than that in male hosts. The round spermatids were the most advanced germ cells until 15 weeks after transplantation, and no complete spermatozoon was observed in any of the grafts. The expression of protamine-2 was detected in grafts from 5 weeks posttransplantation in both male and female hosts, confirming that the spermatogenic cells differentiated into spermatids. In contrast to grafts, the testes of male hosts had a normal histological appearance. The results showed the schedule of spermatogenesis following syngeneic testicular transplantation in both male and female hosts. This model could be useful for further studies involving the endocrinology of the testis and the mechanisms of spermatogenesis.

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Keqin Yan Department of Obstetrics and Gynecology, China–Japan Friendship Hospital, Beijing, China

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Dingqing Feng Department of Obstetrics and Gynecology, China–Japan Friendship Hospital, Beijing, China

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Jing Liang Department of Obstetrics and Gynecology, China–Japan Friendship Hospital, Beijing, China

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Qing Wang Institute of Basic Medical Sciences, Chinese Academy of Medical Sciences, School of Basic Medicine, Peking Union Medical College, Beijing, China

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Lin Deng Department of Obstetrics and Gynecology, China–Japan Friendship Hospital, Beijing, China

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Xiao Zhang Department of Obstetrics and Gynecology, China–Japan Friendship Hospital, Beijing, China

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Bin Ling Department of Obstetrics and Gynecology, China–Japan Friendship Hospital, Beijing, China

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Daishu Han Institute of Basic Medical Sciences, Chinese Academy of Medical Sciences, School of Basic Medicine, Peking Union Medical College, Beijing, China

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Viral infections of the ovary may perturb ovarian functions. However, the mechanisms underlying innate immune responses in the ovary are poorly understood. The present study demonstrates that cytosolic viral DNA sensor signaling initiates the innate immune response in mouse ovarian granulosa cells and affects endocrine function. The cytosolic DNA sensors p204 and cGAS and their common signaling adaptor stimulator of interferon (IFN) genes (STING) were constitutively expressed in granulosa cells. Transfection with VACV70, a synthetic vaccinia virus (VACV) DNA analog, induced the expression of type I interferons (IFNA/B) and major inflammatory cytokines (TNFA and IL6) through IRF3 and NF-κB activation respectively. Moreover, several IFN-inducible antiviral proteins, including 2′,5′-oligoadenylate synthetase, IFN-stimulating gene 15 and Mx GTPase 1, were also induced by VACV70 transfection. The innate immune responses in granulosa cells were significantly reduced by the transfection of specific small-interfering RNAs targeting p204, cGas or Sting. Notably, the VACV70-triggered innate immune responses affected steroidogenesis in vivo and in vitro. The data presented in this study describe the mechanism underlying ovarian immune responses to viral infection.

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