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16. Transient inhibition of CDK2 activity prevents oocyte meiosis I completion and egg activation in mouse.

Author

Li, Jian, Chang, Hao‐Ya, Yi, Zi‐Yun, Zhang, Chun‐Hui, Sun, Qing‐Yuan, and Qian, Wei‐Ping

Subjects
MEIOSIS, CYCLIN-dependent kinases, OVUM, GENE knockout, FETAL development, MICE
Abstract

Mammalian oocytes are arrested at the diplotene stage of prophase I during fetal or postnatal development. It was reported that cyclin‐dependent kinases (CDK1) was the sole CDK to drive the resumption of meiosis and CDK2 was dispensable for meiosis progression in mouse oocytes according to the conditional knockout studies. However, a recent study showed that CDK2 activity is essential for meiotic division and gametogenesis by means of gene‐directed mutagenesis, which avoids the compensatory activation of other CDKs. Taken the compensatory effect between CDKs after gene knockout, the physiological function of CDK2 activity in oocyte maturation remains unclear. To address this issue, we applied a specific small‐molecule inhibitor to restrain CDK2 activity transiently during oocyte meiotic maturation. Surprisingly, transient inhibition of CDK2 activity severely prevented the meiosis I completion although the meiotic resumption was not affected. Then we found that CDK2 activity was required for establishment of normal spindle and chromosome dynamics. Notably, CDK2 inhibition interrupted the anaphase‐promoting complex/cyclosome (APC/C)‐dependent degradation pathway by maintaining the activation of spindle assembly checkpoint (SAC). Interestingly, CDK2 inhibition prevented the egg activation as well. Overall, our data demonstrate that CDK2 kinase activity is required for proper dynamics of spindle and chromosomes, whose disturbance induces the continuous SAC activation and subsequent inactivation of APC/C activity in oocyte meiosis. [ABSTRACT FROM AUTHOR]

Published
2022
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17. An IL-7-dependent rebound in thymic T cell output contributes to the bone loss induced by estrogen deficiency

Author

Ryan, Michaela Robbie, Shepherd, Rebecca, Leavey, Jennifer K., Gao, Yuhao, Grassi, Francesco, Schnell, Frederick J., Qian, Wei-Ping, Kersh, Gilbert J., Weitzmann, M. Neale, and Pacifici, Roberto

Subjects
Bone diseases -- Research, Interleukins -- Research, Osteoporosis -- Research, T cells -- Research, Science and technology
Abstract

The bone wasting induced by estrogen deficiency is, in part, a consequence of increased T cell production of the osteoclastogenic cytokine TNF-[alpha]. This phenomenon is due to an expansion of T cells, but the responsible mechanism is unknown. We now show that ovariectomy (ovx) disregulates T lymphopoiesis and induces bone loss by stimulating, through a rise in IL-7 levels, both thymic-dependent differentiation of bone marrow-derived progenitors and thymic-independent, peripheral expansion of mature T cells. Attesting to the relevance of the thymic effects, thymectomy decreases by [approximately equal to] 50% the bone loss and the stimulation of T lymphopoiesis induced by ovx. In contrast, in vivo attenuation of the elevated IL-7 completely prevents the stimulation of T lymphopoiesis and the bone loss that follow ovx. Thus, the disruption of both T cell and bone homeostasis induced by ovx is mediated by IL-7 and due to both the thymic and extrathymic mechanisms. We conclude that IL-7 is a pivotal upstream target through which estrogen regulates hematopoietic and immune functions that are critical for bone homeostasis. osteoporosis | ovariectomized | thymus | TNF-[alpha]

Published
2005

18. Estrogen prevents bone loss through transforming growth factor [beta] signaling in T cells

Author

Gao, Yuhao, Qian, Wei-Ping, Dark, Kimberly, Toraldo, Gianluca, Lin, Angela S.P., Guldberg, Robert E., Flavell, Richard A., Weitzmann, M. Neale, and Pacifici, Roberto

Subjects
Bones -- Research, Estrogen -- Research, Science and technology
Abstract

Estrogen (E) deficiency leads to an expansion of the pool of tumor necrosis factor (TNF)-producing T cells through an IFN-[gamma]-dependent pathway that results in increased levels of the osteoclastogenic cytokine TNF in the bone marrow. Disregulated IFN-[gamma], production is instrumental for the bone loss induced by ovariectomy (ovx), but the responsible mechanism is unknown. We now show that mice with T cell-specific blockade of type [beta] transforming growth factor (TGF[beta]) signaling are completely insensitive to the bone-sparing effect of E. This phenotype results from a failure of E to repress IFN-[gamma] production, which, in turn, leads to increased T cell activation and T cell TNF production. Furthermore, ovx blunts TGF[beta] levels in the bone marrow, and overexpression of TGF[beta] in vivo prevents ovx-induced bone loss. These findings demonstrate that E prevents bone loss through a TGF[beta]-dependent mechanism, and that TGF[beta] signaling in T cells preserves bone homeostasis by blunting T cell activation. Thus, stimulation of TGF[beta] production in the bone marrow is a critical 'upstream' mechanism by which E prevents bone loss, and enhancement of TGF[beta] levels in vivo may constitute a previously undescribed therapeutic approach for preventing bone loss.

Published
2004

19. Estrogen deficiency induces bone loss by increasing T cell proliferation and lifespan through IFN-[gamma]-induced class II transactivator

Author

Cenci, Simone, Toraldo, Gianluca, Weitzmann, M. Neale, Roggia, Cristiana, Gao, Yuhao, Qian, Wei Ping, Sierra, Oscar, and Pacifici, Roberto

Subjects
Estrogen -- Research, Tumor necrosis factor -- Research, Science and technology
Abstract

Expansion of the pool of tumor necrosis factor (TNF)-[alpha]-producing T cells is instrumental for the bone loss induced by estrogen deficiency, but the responsible mechanism is unknown. Here we show that ovariectomy up-regulates IFN-[gamma]-induced class II transactivator, a multitarget immune modulator, resulting in increased antigen presentation by macrophages, enhanced T cell activation, and prolonged lifespan of active T cells. Up-regulation of class II transactivator derives from increased production of IFN-[gamma] by T helper 1 cells, resulting from enhanced secretion of IL-12 and IL-18 by macrophages. The resulting T cell expansion and bone loss are prevented in vivo by both blockade of antigen presenting cell-induced T cell activation, and silencing of IFN-[gamma] receptor signaling. Thus, increased IFN-[gamma]-induced class II transactivator expression and the resulting enhanced T cell proliferation and lifespan are critical to the bone wasting effect of estrogen deficiency.

Published
2003

20. Overexpression of cyclin A1 promotes meiotic resumption but induces premature chromosome separation in mouse oocyte.

Author

Li, Jian, Dong, Feng, Ouyang, Ying‐Chun, Sun, Qing‐Yuan, and Qian, Wei‐Ping

Subjects
MEIOSIS, GERMINAL vesicles, GONADS, CHROMOSOMES, CHROMATIDS, MICE, OVUM
Abstract

Mammalian cyclin A1 is prominently expressed in testis and essential for meiosis in the male mouse, however, it shows weak expression in ovary, especially during oocyte maturation. To understand why cyclin A1 behaves in this way in the oocyte, we investigated the effect of cyclin A1 overexpression on mouse oocyte meiotic maturation. Our results revealed that cyclin A1 overexpression triggered meiotic resumption even in the presence of germinal vesicle breakdown inhibitor, milrinone. Nevertheless, the cyclin A1‐overexpressed oocytes failed to extrude the first polar body but were completely arrested at metaphase I. Consequently, cyclin A1 overexpression destroyed the spindle morphology and chromosome alignment by inducing premature separation of chromosomes and sister chromatids. Therefore, cyclin A1 overexpression will prevent oocyte maturation although it can promote meiotic resumption. All these results show that decreased expression of cyclin A1 in oocytes may have an evolutional significance to keep long‐lasting prophase arrest and orderly chromosome separation during oocyte meiotic maturation. [ABSTRACT FROM AUTHOR]

Published
2020
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21. CDC6 regulates both G2/M transition and metaphase‐to‐anaphase transition during the first meiosis of mouse oocytes.

Author

Yi, Zi‐Yun, Meng, Tie‐Gang, Ma, Xue‐Shan, Li, Jian, Zhang, Chun‐Hui, Ouyang, Ying‐Chun, Schatten, Heide, Qiao, Jie, Sun, Qing‐Yuan, and Qian, Wei‐Ping

Subjects
MEIOSIS, CELL cycle proteins, GERMINAL vesicles, SPINDLE apparatus, DNA replication, CELL imaging
Abstract

Cell division cycle protein, CDC6, is essential for the initiation of DNA replication. CDC6 was recently shown to inhibit the microtubule‐organizing activity of the centrosome. Here, we show that CDC6 is localized to the spindle from pro‐metaphase I (MI) to MII stages of oocytes, and it plays important roles at two critical steps of oocyte meiotic maturation. CDC6 depletion facilitated the G2/M transition (germinal vesicle breakdown [GVBD]) through regulation of Cdh1 and cyclin B1 expression and CDK1 (CDC2) phosphorylation in a GVBD‐inhibiting culture system containing milrinone. Furthermore, GVBD was significantly decreased after knockdown of cyclin B1 in CDC6‐depleted oocytes, indicating that the effect of CDC6 loss on GVBD stimulation was mediated, at least in part, by raising cyclin B1. Knockdown of CDC6 also caused abnormal localization of γ‐tubulin, resulting in defective spindles, misaligned chromosomes, cyclin B1 accumulation, and spindle assembly checkpoint (SAC) activation, leading to significant pro‐MI/MI arrest and PB1 extrusion failure. These phenotypes were also confirmed by time‐lapse live cell imaging analysis. The results indicate that CDC6 is indispensable for maintaining G2 arrest of meiosis and functions in G2/M checkpoint regulation in mouse oocytes. Moreover, CDC6 is also a key player regulating meiotic spindle assembly and metaphase‐to‐anaphase transition in meiotic oocytes. [ABSTRACT FROM AUTHOR]

Published
2020
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22. PKCβ1 regulates meiotic cell cycle in mouse oocyte.

Author

Yi, Zi-Yun, Liang, Qiu-Xia, Meng, Tie-Gang, Li, Jian, Dong, Ming-Zhe, Hou, Yi, Ouyang, Ying-Chun, Zhang, Chun-Hui, Schatten, Heide, Sun, Qing-Yuan, Qiao, Jie, and Qian, Wei-Ping

Abstract

PKCβI, a member of the classical protein kinase C family, plays key roles in regulating cell cycle transition. Here, we report the expression, localization and functions of PKCβI in mouse oocyte meiotic maturation. PKCβI and p-PKCβI (phosphor-PKCβI) were expressed from germinal vesicle (GV) stage to metaphase II (MII) stage. Confocal microscopy revealed that PKCβI was localized in the GV and evenly distributed in the cytoplasm after GV breakdown (GVBD), and it was concentrated at the midbody at telophase in meiotic oocytes. While, p-PKCβI was concentrated at the spindle poles at the metaphase stages and associated with midbody at telophase. Depletion of PKCβI by specific siRNA injection resulted in defective spindles, accompanied with spindle assembly checkpoint activation, metaphase I arrest and failure of first polar body (PB1) extrusion. Live cell imaging analysis also revealed that knockdown of PKCβI resulted in abnormal spindles, misaligned chromosomes, and meiotic arrest of oocytes arrest at the Pro-MI/MI stage. PKCβI depletion did not affect the G2/M transition, but its overexpression delayed the G2/M transition through regulating Cyclin B1 level and Cdc2 activity. Our findings reveal that PKCβI is a critical regulator of meiotic cell cycle progression in oocytes. Abbreviations: PKC, protein kinase C; COC, cumulus-oocyte complexes; GV, germinal vesicle; GVBD, germinal vesicle breakdown; Pro-MI, first pro-metaphase; MI, first metaphase; Tel I, telophase I; MII, second metaphase; PB1, first polar body; SAC, spindle assembly checkpoint [ABSTRACT FROM AUTHOR]

Published
2019
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23. Post-ovulatory aging of mouse oocytes in vivo and in vitro: Effects of caffeine on exocytosis and translocation of cortical granules.

Author

Zheng, Jie, Yin, Xun ‐ Qiang, Ge, Wei, He, Gui ‐ Fang, Qian, Wei ‐ Ping, Ma, Jun ‐ Yu, Shen, Wei, Yin, Shen, and Sun, Qing ‐ Yuan

Subjects
CAFFEINE, OVUM, EXOCYTOSIS, CELL culture, IN vivo studies
Abstract

The developmental potential of post-ovulatory oocytes decreases with aging in vivo and in vitro. In this study, we aimed to investigate the effects of a potent antioxidant caffeine on cortical granules (CGs) distribution in mouse oocytes aging in vivo and in vitro. We found that in vivo administration of 150 mg/kg caffeine caused ovulation of some morphologically abnormal oocytes showing premature exocytosis or congregation of CGs, but significantly decreased abnormal distribution of CGs in oocytes aging for 6 h, 12 h and 18 h in vivo compared to those without caffeine treatment. Unexpectedly, supplementation of oocyte culture medium with 10 mmol/L caffeine accelerated CGs release of oocytes and the normal CG distribution rate dramatically decreased from 6 h in oocytes aging in vitro. It appeared that oocytes showed a high degree of abnormal CG distribution by aging for 18 h, and caffeine might delay oocyte CG exocytosis in vivo, but accelerates CG exocytosis in vitro. Our findings may have implications for improving assisted reproduction technologies. [ABSTRACT FROM AUTHOR]

Published
2016
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26. Deletion of Ck2β gene causes germ cell development arrest and azoospermia in male mice.

Author

Liang, Qiu‐Xia, Wang, Zhen‐Bo, Lei, Wen‐Long, Lin, Fei, Qiao, Jing‐Yi, Filhol‐Cochet, Odile, Boldyreff, Brigitte, Schatten, Heide, Sun, Qing‐Yuan, and Qian, Wei‐Ping

Subjects
GERM cells, DELETION mutation, GENE silencing, MALE infertility, MICE
Abstract

Objectives: In humans, non‐obstructive azoospermia (NOA) is a major cause of male infertility. However, the aetiology of NOA is largely unknown. Previous studies reported that protein CK2β was abundantly and broadly expressed in spermatogenic cells. Here, we investigate whether protein CK2β participates in spermatogenesis. Materials and Methods: In this study, we separated spermatogenic cells using STA‐PUT velocity sedimentation, analysed the expression pattern of protein CK2β by immunoblotting, specifically deleted Ck2β gene in early‐stage spermatogenic cells by crossing Ck2βfl mice with Stra8‐Cre+ mice and validated the knockout efficiency by quantitative RT‐PCR and immunoblotting. The phenotypes of Ck2βfl/Δ;SCre+ mice were studied by immunohistochemistry and immunofluorescence. The molecular mechanisms of male germ cell development arrest were elucidated by immunoblotting and TUNEL assay. Results: Ablation of Ck2β gene triggered excessive germ cell apoptosis, germ cell development arrest, azoospermia and male infertility. Inactivation of Ck2β gene caused distinctly reduced expression of Ck2α′ gene and CK2α′ protein. Conclusions: Ck2β is a vital gene for germ cell survival and male fertility in mice. [ABSTRACT FROM AUTHOR]

Published
2020
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27. Age-associated changes in gene expression of goat oocytes.

Author

Zhang, Guo-Min, Gu, Chen-Hao, Zhang, Yan-Li, Sun, Hong-Yan, Qian, Wei-Ping, Zhou, Zheng-Rong, Wan, Yong-Jie, Jia, Ruo-Xin, Wang, Li-Zhong, and Wang, Feng

Subjects
*GENE expression, *GOATS as laboratory animals, *OVUM, *AGING, *FERTILIZATION (Biology), *DEVELOPMENTAL biology, *IN vitro studies
Abstract

Abstract: Oocyte aging severely decreases the quality of oocytes, which hampers fertilization and subsequent embryo development. In the present study, age-dependent molecular changes in goat oocytes were investigated. First, the quality of goat oocytes with various in vitro culture times (24, 30, 36, 48, and 60 hours) was evaluated on the basis of developmental rates of parthenogenetically activated embryos and apoptosis of cumulus cells (CCs). Second, relative gene expression of six genes (mitochondrial genes: PGC-1α and NRF-1; epigenetic modification genes: SNRPN and HAT1; mitotic spindle checkpoint protein: SMAD2; and hyaluronan synthase gene: HAS3) were analyzed during oocyte aging. Third, we further studied the changes of seven genes (PGC-1α and NRF-1; apoptotic-related genes: BAX and BCL2; hyaluronan synthase gene: HAS2; metabolism-related gene: STAR; and superoxide dismutase gene: SOD1) in CCs during oocyte aging. In these studies, the blastocyst rate gradually decreased and the number of apoptotic cells significantly increased as the culture time increased (P < 0.05). Moreover, relative gene expressions of PGC-1α, NRF-1 and SMAD2 significantly decreased from 24 to 36 hours (P < 0.05), whereas the levels of HAT1 and HAS3 slowly increased as culture was prolonged. Furthermore, the levels of PGC-1α, BCL2, HAS2 and SOD1 quickly reduced, and BAX significantly increased from 24 to 36 hours in aged CCs (P < 0.05). In conclusion, goat oocytes started to age at 30 hours in vitro culture, and gene expression patterns of oocytes and CCs significantly changed as the oocytes aged. Gene expression pattern changes in CCs may provide a convenient and effective way to detect oocyte aging without compromising oocyte integrity. [Copyright &y& Elsevier]

Published
2013
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28. SRSF1-mediated alternative splicing is required for spermatogenesis.

Author

Lei WL, Li YY, Du Z, Su R, Meng TG, Ning Y, Hou G, Schatten H, Wang ZB, Han Z, Sun F, Qian WP, Liu C, and Sun QY

Subjects
Male, Serine-Arginine Splicing Factors genetics, Serine-Arginine Splicing Factors metabolism, Testis metabolism, Animals, Alternative Splicing genetics, Spermatogenesis genetics
Abstract

Alternative splicing (AS) plays significant roles in a multitude of fundamental biological activities. AS is prevalent in the testis, but the regulations of AS in spermatogenesis is only little explored. Here, we report that Serine/arginine-rich splicing factor 1 (SRSF1) plays critical roles in alternative splicing and male reproduction. Male germ cell-specific deletion of Srsf1 led to complete infertility by affecting spermatogenesis. Mechanistically, by combining RNA-seq data with LACE-seq data, we showed that SRSF1 affected the AS of Stra8 in a direct manner and Dazl , Dmc1 , Mre11a , Syce2 and Rif1 in an indirect manner. Our findings demonstrate that SRSF1 has crucial functions in spermatogenesis and male fertility by regulating alternative splicing., Competing Interests: Competing Interests: The authors have declared that no competing interest exists., (© The author(s).)

Published
2023
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29. Effectiveness of non-invasive chromosomal screening for normal karyotype and chromosomal rearrangements.

Author

Sun BL, Wang Y, Sixi-Wen, Zhou L, Zhang CH, Wu ZX, Qiao J, Sun QY, Yao YX, Wang J, Yi ZY, and Qian WP

Abstract

Purpose: To study the accuracy of non-invasive chromosomal screening (NICS) results, in normal chromosomes and chromosomal rearrangement groups and to investigate whether using trophoblast cell biopsy along with NICS, to choose embryos for transfer can improve the clinical outcomes of assisted pregnancy. Methods: We retrospectively analyzed 101 couples who underwent preimplantation genetic testing at our center from January 2019 to June 2021 and collected 492 blastocysts for trophocyte (TE) biopsy. D3-5 blastocyst culture fluid and blastocyst cavity fluid were collected for the NICS. Amongst them, 278 blastocysts (58 couples) and 214 blastocysts (43 couples) were included in the normal chromosomes and chromosomal rearrangement groups, respectively. Couples undergoing embryo transfer were divided into group A, in which both the NICS and TE biopsy results were euploid (52 embryos), and group B, in which the TE biopsy results were euploid and the NICS results were aneuploid (33 embryos). Results: In the normal karyotype group, concordance for embryo ploidy was 78.1%, sensitivity was 94.9%, specificity was 51.4%, the positive predictive value (PPV) was 75.7%, and the negative predictive value (NPV) was 86.4%. In the chromosomal rearrangement group, concordance for embryo ploidy was 73.1%, sensitivity was 93.3%, specificity was 53.3%, the PPV was 66.3%, and the NPV was 89%. In euploid TE/euploid NICS group, 52 embryos were transferred; the clinical pregnancy rate was 71.2%, miscarriage rate was 5.4%, and ongoing pregnancy rate was 67.3%. In euploid TE/aneuploid NICS group, 33 embryos were transferred; the clinic pregnancy rate was 54.5%, miscarriage rate was 5.6%, and ongoingpregnancy rate was 51.5%. The clinical pregnancy and ongoing pregnancy rates were higher in the TE and NICS euploid group. Conclusion: NICS was similarly effective in assessing both normal and abnormal populations. Identification of euploidy and aneuploidy alone may lead to the wastage of embryos due to high false positives. More suitable reporting methods for NICS and countermeasures for a high number of false positives in NICS are needed. In summary, our results suggest that combining biopsy and NICS results could improve the outcomes of assisted pregnancy., Competing Interests: Authors Y-xY and JW were employed by the company Yikon Genomics Company Ltd. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Sun, Wang, Sixi-Wen, Zhou, Zhang, Wu, Qiao, Sun, Yao, Wang, Yi and Qian.)

Published
2023
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30. An endometrial receptivity scoring system basing on the endometrial thickness, volume, echo, peristalsis, and blood flow evaluated by ultrasonography.

Author

Zhang CH, Chen C, Wang JR, Wang Y, Wen SX, Cao YP, and Qian WP

Subjects
Embryo Transfer methods, Female, Humans, Pregnancy, Retrospective Studies, Ultrasonography, Endometrium diagnostic imaging, Peristalsis
Abstract

Background: Establishing a successful pregnancy depends on the endometrium and the embryo. It is estimated that suboptimal endometrial receptivity account for one-third of implantation failures. Despite the indepth understanding of the processes associated with embryo-endometrial cross-talk, little progress has been achieved for diagnosis and treatments for suboptimal endometrial receptivity., Methods: This retrospective study included women undergoing their first frozen-thawed embryo transfer (FET) cycles at our reproductive medicine center from March 2021 to August 2021. Transvaginal three-dimensional (3D) ultrasound was performed in the morning on the day of embryo transfer for all the thawed embryo transfer patients, to evaluate endometrial receptivity, including endometrial thickness, echogenicity, volume, movement and blood flow., Results: A total number of 562 patients of FET with 315 pregnancies (56.0%) was analyzed. It was found that only the echo of the endometrial central line was different between the pregnant group and non-pregnant group. Other parameters, such as endometrial thickness, volume, endometrial peristalsis, or the endometrial blood flow were not statistically different between the two groups. Then, according to the relationship between the different groups and the clinical pregnancy rate, a score of 0 to 2 was respectively scored. The sum of the scores for the six items was the patient's endometrial receptivity score. It showed that the clinical pregnancy rate increased as the endometrial receptivity score increased, and when the receptivity score reaches at least 5, the clinical pregnancy rate is significantly improved (63.7% versus 49.5%, P =0.001)., Conclusion: We developed an endometrial receptivity scoring system and demonstrated its validity. It may aid clinicians in choosing the useful marker in clinical practice and for informing further research., Competing Interests: The authors declare that the research was conducted in the absence of any commercial of financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Zhang, Chen, Wang, Wang, Wen, Cao and Qian.)

Published
2022
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31. Measurement of Bone Metastatic Tumor Growth by a Tibial Tumorigenesis Assay.

Author

Zhang B, Li X, Qian WP, Wu D, and Dong JT

Abstract

Bone metastasis is a frequent and lethal complication of many cancer types ( i.e ., prostate cancer, breast cancer, and multiple myeloma), and a cure for bone metastasis remains elusive. To recapitulate the process of bone metastasis and understand how cancer cells metastasize to bone, intracardiac injection and intracaudal arterial animal models were developed. The intratibial injection animal model was established to investigate the communication between cancer cells and the bone microenvironment and to mimic the setting of prostate cancer patients with bone metastasis. Given that detailed protocols of intratibial injection and its quantitative analysis are still insufficient, in this protocol, we provide hands-on procedures for how to prepare cells, perform the tibial injection, monitor tibial tumor growth, and quantitatively evaluate the tibial tumors in pathological samples. This manuscript provides a ready-to-use experimental protocol for investigating cancer cell behaviors in bone and developing novel therapeutic strategies for bone metastatic cancer patients., Competing Interests: Competing interestsThe authors declare no conflict of interest., (Copyright © 2021 The Authors; exclusive licensee Bio-protocol LLC.)

Published
2021
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32. Cell Division Cycle 5-Like Regulates Metaphase-to-Anaphase Transition in Meiotic Oocyte.

Author

Zhang HY, Li J, Ouyang YC, Meng TG, Zhang CH, Yue W, Sun QY, and Qian WP

Abstract

The quality of oocytes is a vital factor for embryo development. Meiotic progression through metaphase I usually takes a relatively long time to ensure correct chromosome separation, a process that is critical for determining oocyte quality. Here, we report that cell division cycle 5-like (Cdc5L) plays a critical role in regulating metaphase-to-anaphase I transition during mouse oocyte meiotic maturation. Knockdown of Cdc5L by small interfering RNA injection did not affect spindle assembly but caused metaphase I arrest and subsequent reduced first polar body extrusion due to insufficient anaphase-promoting complex/cyclosome activity. We further showed that Cdc5L could also directly interact with securin, and Cdc5L knockdown led to a continuous high expression level of securin, causing severely compromised meiotic progression. The metaphase-to-anaphase I arrest caused by Cdc5L knockdown could be rescued by knockdown of endogenous securin. In summary, we reveal a novel role for Cdc5L in regulating mouse oocyte meiotic progression by interacting with securin., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Zhang, Li, Ouyang, Meng, Zhang, Yue, Sun and Qian.)

Published
2021
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33. Evaluation of the Genetic Variation Spectrum Related to Corneal Dystrophy in a Large Cohort.

Author

Li W, Qu N, Li JK, Li YX, Han DM, Chen YX, Tian L, Shao K, Yang W, Wang ZS, Chen X, Jin XY, Wang ZW, Liang C, Qian WP, Wang LS, and He W

Abstract

Aims: To characterize the genetic landscape and mutation spectrum of patients with corneal dystrophies (CDs) in a large Han ethnic Chinese Cohort with inherited eye diseases (IEDs)., Methods: Retrospective study. A large IED cohort was recruited in this study, including 69 clinically diagnosed CD patients, as well as other types of eye diseases patients and healthy family members as controls. The 792 genes on the Target&#95;Eye&#95;792&#95;V2 chip were used to screen all common IEDs in our studies, including 22 CD-related genes., Results: We identified 2334 distinct high-quality variants on 22 CD-related genes in a large IEDs cohort. A total of 21 distinct pathogenic or likely pathogenic mutations were identified, and the remaining 2313 variants in our IED cohort had no evidence of CD-related pathogenicity. Overall, 81.16% ( n = 56/69) of CD patients received definite molecular diagnoses, and transforming growth factor-beta-induced protein ( TGFBI ), CHTS6 , and SLC4A11 genes covered 91.07, 7.14, and 1.79% of the diagnosed cases, respectively. Twelve distinct disease-associated mutations in the TGFBI gene were identified, 11 of which were previously reported and one is novel. Four of these TGFBI mutations (p.D123H, p.M502V, p.P501T, and p.P501A) were redefined as likely benign in our Han ethnic Chinese IED cohort after performing clinical variant interpretation. These four TGFBI mutations were detected in asymptomatic individuals but not in CD patients, especially the previously reported disease-causing mutation p.P501T. Among 56 CD patients with positive detected mutations, the recurrent TGFBI mutations were p.R124H, p.R555W, p.R124C, p.R555Q, and p.R124L, and the proportions were 32.14, 19.64, 14.29, 10.71, and 3.57%, respectively. Twelve distinct pathogenic or likely pathogenic mutations of CHTS6 were detected in 28 individuals. The recurrent mutations were p.Y358H, p.R140X, and p.R205W, and the proportions were 25.00, 21.43, and 14.29%, respectively. All individuals associated with TGFBI were missense mutations; 74.19% associated with CHTS6 mutations were missense mutations, and 25.81% were non-sense mutations. Hot regions were located in exons 4 and 12 of TGFBI individuals and located in exon 3 of CHTS6 individuals. No de novo mutations were identified., Conclusion: For the first time, our large cohort study systematically described the variation spectrum of 22 CD-related genes and evaluated the frequency and pathogenicity of all 2334 distinct high-quality variants in our IED cohort. Our research will provide East Asia and other populations with baseline data from a Han ethnic population-specific level., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Li, Qu, Li, Li, Han, Chen, Tian, Shao, Yang, Wang, Chen, Jin, Wang, Liang, Qian, Wang and He.)

Published
2021
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34. The Cyclin B2/CDK1 Complex Conservatively Inhibits Separase Activity in Oocyte Meiosis II.

Author

Li J, Zhang HY, Wang F, Sun QY, and Qian WP

Abstract

Recently, we have reported that the cyclin B2/CDK1 complex regulates homologous chromosome segregation through inhibiting separase activity in oocyte meiosis I, which further elucidates the compensation of cyclin B2 on cyclin B1's function in meiosis I. However, whether cyclin B2/CDK1 complex also negatively regulates separase activity during oocyte meiosis II remains unknown. In the present study, we investigated the function of cyclin B2 in meiosis II of oocyte. We found that stable cyclin B2 expression impeded segregation of sister chromatids after oocyte parthenogenetic activation. Consistently, stable cyclin B2 inhibited separase activation, while introduction of non-phosphorylatable separase mutant rescued chromatid separation in the stable cyclin B2-expressed oocytes. Therefore, the cyclin B2/CDK1 complex conservatively regulates separase activity via inhibitory phosphorylation of separase in both meiosis I and meiosis II of mouse oocyte., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Li, Zhang, Wang, Sun and Qian.)

Published
2021
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35. Critical Functions of PP2A-Like Protein Phosphotases in Regulating Meiotic Progression.

Author

Lei WL, Qian WP, and Sun QY

Abstract

Meiosis is essential to the continuity of life in sexually-reproducing organisms through the formation of haploid gametes. Unlike somatic cells, the germ cells undergo two successive rounds of meiotic divisions after a single cycle of DNA replication, resulting in the decrease in ploidy. In humans, errors in meiotic progression can cause infertility and birth defects. Post-translational modifications, such as phosphorylation, ubiquitylation and sumoylation have emerged as important regulatory events in meiosis. There are dynamic equilibrium of protein phosphorylation and protein dephosphorylation in meiotic cell cycle process, regulated by a conservative series of protein kinases and protein phosphatases. Among these protein phosphatases, PP2A, PP4, and PP6 constitute the PP2A-like subfamily within the serine/threonine protein phosphatase family. Herein, we review recent discoveries and explore the role of PP2A-like protein phosphatases during meiotic progression., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Lei, Qian and Sun.)

Published
2021
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36. The cyclin B2/CDK1 complex inhibits separase activity in mouse oocyte meiosis I.

Author

Li J, Ouyang YC, Zhang CH, Qian WP, and Sun QY

Subjects
Animals, CDC2 Protein Kinase genetics, Cyclin B2 genetics, Female, Mice, Mice, Knockout, Oocytes cytology, Separase genetics, Anaphase, CDC2 Protein Kinase metabolism, Chromosome Segregation, Cyclin B2 metabolism, Metaphase, Oocytes metabolism, Separase metabolism
Abstract

Chromosome segregation is driven by separase, activity of which is inhibited by binding to securin and cyclin B1/CDK1. In meiosis, premature separase activity will induce aneuploidy or abolish chromosome segregation owing to the untimely destruction of cohesin. Recently, we have proved that cyclin B2 can compensate for cyclin B1 in CDK1 activation for the oocyte meiosis G2/M transition. In the present study, we identify an interaction between cyclin B2/CDK1 and separase in mouse oocytes. We find that cyclin B2 degradation is required for separase activation during the metaphase I-anaphase I transition because the presence of stable cyclin B2 leads to failure of homologous chromosome separation and to metaphase I arrest, especially in the simultaneous absence of securin and cyclin B1. Moreover, non-phosphorylatable separase rescues the separation of homologous chromosomes in stable cyclin B2-arrested cyclin B1-null oocytes. Our results indicate that cyclin B2/CDK1 is also responsible for separase inhibition via inhibitory phosphorylation to regulate chromosome separation in oocyte meiosis, which may not occur in other cell types., Competing Interests: Competing interestsThe authors declare no competing or financial interests., (© 2019. Published by The Company of Biologists Ltd.)

Published
2019
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37. Cyclins regulating oocyte meiotic cell cycle progression†.

Author

Li J, Qian WP, and Sun QY

Subjects
Animals, Female, Cell Cycle physiology, Cyclins metabolism, Meiosis physiology, Oocytes physiology
Abstract

Oocyte meiotic maturation is a vital and final process in oogenesis. Unlike somatic cells, the oocyte needs to undergo two continuous meiotic divisions (meiosis I and meiosis II) to become a haploid gamete. Notably, oocyte meiotic progression includes two rounds of unique meiotic arrest and resumption. The first arrest occurs at the G2 (germinal vesicle) stage and meiosis resumption is stimulated by a gonadotropin surge; the second arrest takes place at the metaphase II stage, the stage from which it is released when fertilization takes place. The maturation-promoting factor, which consists of cyclin B1 (CCNB1) and cyclin-dependent kinase 1 (CDK1), is responsible for regulating meiotic resumption and progression, while CDK1 is the unique CDK that acts as the catalytic subunit of maturation-promoting factor. Recent studies showed that except for cyclin B1, multiple cyclins interact with CDK1 to form complexes, which are involved in the regulation of meiotic progression at different stages. Here, we review and discuss the control of oocyte meiotic progression by cyclins A1, A2, B1, B2, B3, and O., (© The Author(s) 2019. Published by Oxford University Press on behalf of Society for the Study of Reproduction. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published
2019
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38. Inhibition of breast cancer metastasis to the lungs with UBS109.

Author

Shoji M, Qian WP, Nagaraju GP, Brat DJ, Pessolano D, Luzietti R, Chennamadhavuni S, Yamaguchi M, Yang L, and Liotta DC

Abstract

Synthetic monocarbonyl analogs of curcumin (MACs) are cytotoxic against several cancers including head and neck cancer, pancreatic cancer, colon cancer, and breast cancer. Mechanisms of action include depolarization of the mitochondrial membrane potential and inhibition of NF-κB, leading to apoptosis. We previously demonstrated that UBS109 (MAC), has preventive effects on bone loss induced by breast cancer cell lines. We determined whether UBS109 could inhibit and prevent lung metastasis, since lung metastasis of breast cancer is a major problem in addition to bone metastasis. A breast cancer lung metastasis (colonization) model was created by injection of breast cancer cells MDA-MB-231 into the tail vein of athymic nude mice, nu/nu. Animals were treated with vehicle or UBS109 at 5 or 15 mg/kg body weight by intraperitoneal injection once daily 5 days a week for 5 weeks. UBS109 at 15 mg/kg significantly inhibited lung metastasis/colonization as demonstrated by reduced lung weight consisting of tumor nodules. The body weight of animals treated with UBS109 15 mg/kg remained the same as in the other groups. UBS109 killed completely (100%) MDA-MB-231 breast cancer cells at 1.25 μM in a cytotoxicity assay in vitro . UBS109 15 mg/kg i.p. showed a maximal blood concentration (C max ) of 432 ± 387 ng/mL at 15 min post injection. This is approximately 1.5 ng/ml in the blood of mice and equals 1.5 μM of UBS109. These in vitro and in vivo results are consistent with each other., Competing Interests: CONFLICTS OF INTEREST The author(s) confirm that this article content has no conflicts of interest.

Published
2018
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39. Cyclin B2 can compensate for Cyclin B1 in oocyte meiosis I.

Author

Li J, Tang JX, Cheng JM, Hu B, Wang YQ, Aalia B, Li XY, Jin C, Wang XX, Deng SL, Zhang Y, Chen SR, Qian WP, Sun QY, Huang XX, and Liu YX

Subjects
Animals, Cell Line, Cyclin B1 genetics, Cyclin B2 genetics, Female, Maturation-Promoting Factor genetics, Mesothelin, Mice, Mice, Knockout, Mouse Embryonic Stem Cells, Oocytes cytology, Cyclin B1 metabolism, Cyclin B2 metabolism, Maturation-Promoting Factor metabolism, Meiosis, Oocytes metabolism
Abstract

Mammalian oocytes are arrested at the prophase of the first meiotic division for months and even years, depending on species. Meiotic resumption of fully grown oocytes requires activation of M-phase-promoting factor (MPF), which is composed of Cyclin B1 and cyclin-dependent kinase 1 (CDK1). It has long been believed that Cyclin B1 synthesis/accumulation and its interaction with CDK1 is a prerequisite for MPF activation in oocytes. In this study, we revealed that oocyte meiotic resumption occurred in the absence of Cyclin B1. Ccnb1 -null oocytes resumed meiosis and extruded the first polar body. Without Cyclin B1, CDK1 could be activated by up-regulated Cyclin B2. Ccnb1 and Ccnb2 double knockout permanently arrested the oocytes at the prophase of the first meiotic division. Oocyte-specific Ccnb1 -null female mice were infertile due to failed MPF activity elevation and thus premature interphase-like stage entry in the second meiotic division. These results have revealed a hidden compensatory mechanism between Cyclin B1 and Cyclin B2 in regulating MPF and oocyte meiotic resumption., (© 2018 Li et al.)

Published
2018
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40. Resveratrol increases resistance of mouse oocytes to postovulatory aging in vivo .

Author

Liang QX, Lin YH, Zhang CH, Sun HM, Zhou L, Schatten H, Sun QY, and Qian WP

Subjects
Aging, Animals, Female, Gene Expression Regulation drug effects, Mice, Mice, Inbred ICR, Oxidative Stress drug effects, Reactive Oxygen Species, Sirtuin 1 metabolism, Cellular Senescence drug effects, Oocytes drug effects, Ovulation physiology, Resveratrol pharmacology
Abstract

After ovulation, metaphase II oocytes undergo a time-dependent deterioration in vivo or in vitro , which is referred to as postovulatory oocyte aging, a process during which a series of deleterious molecular and cellular changes occur. In this study, we found that short-term injection of resveratrol (3,5,4'-trihydroxystilbene) effectively ameliorated oxidative stress-induced damage in postovulatory oocyte aging of middle-aged mice in vivo . Resveratrol induced changes that delayed the aging-induced oocyte deterioration including the elevated expression of the anti-aging molecule Sirtuin 1 (SIRT1); it reduced intracellular reactive oxygen species (ROS) level, and improved mitochondria function. In addition, these beneficial changes may also help to prevent apoptosis. Taken together, our data suggest that resveratrol can effectively protect against postovulatory oocyte aging in vivo primarily by preventing ROS production.

Published
2018
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41. SIRT1, 2, 3 protect mouse oocytes from postovulatory aging.

Author

Zhang T, Zhou Y, Li L, Wang HH, Ma XS, Qian WP, Shen W, Schatten H, and Sun QY

Subjects
Animals, Cellular Senescence drug effects, Female, Mice, Niacinamide pharmacology, Oocytes drug effects, Reactive Oxygen Species metabolism, Sirtuin 1 antagonists & inhibitors, Sirtuin 2 antagonists & inhibitors, Sirtuin 3 antagonists & inhibitors, Spindle Apparatus drug effects, Spindle Apparatus metabolism, Aging metabolism, Cellular Senescence physiology, Oocytes metabolism, Sirtuin 1 metabolism, Sirtuin 2 metabolism, Sirtuin 3 metabolism
Abstract

The quality of metaphase II oocytes will undergo a time-dependent deterioration following ovulation as the result of the oocyte aging process. In this study, we determined that the expression of sirtuin family members (SIRT1, 2, 3) was dramatically reduced in mouse oocytes aged in vivo or in vitro. Increased intracellular ROS was observed when SIRT1, 2, 3 activity was inhibited. Increased frequency of spindle defects and disturbed distribution of mitochondria were also observed in MII oocytes aged in vitro after treatment with Nicotinamide (NAM), indicating that inhibition of SIRT1, 2, 3 may accelerate postovulatory oocyte aging. Interestingly, when MII oocytes were exposed to caffeine, the decline of SIRT1, 2, 3 mRNA levels was delayed and the aging-associated defective phenotypes could be improved. The results suggest that the SIRT1, 2, 3 pathway may play a potential protective role against postovulatory oocyte aging by controlling ROS generation.

Published
2016
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42. Maternal diabetes causes abnormal dynamic changes of endoplasmic reticulum during mouse oocyte maturation and early embryo development.

Author

Zhang CH, Qian WP, Qi ST, Ge ZJ, Min LJ, Zhu XL, Huang X, Liu JP, Ouyang YC, Hou Y, Schatten H, and Sun QY

Subjects
Animals, Cell Nucleus metabolism, Cells, Cultured, Cytoplasm metabolism, Embryo, Mammalian embryology, Embryo, Mammalian metabolism, Female, Male, Mice, Mice, Inbred ICR, Microscopy, Confocal, Oocytes cytology, Pregnancy, Time Factors, Time-Lapse Imaging, Diabetes Mellitus, Experimental physiopathology, Embryonic Development physiology, Endoplasmic Reticulum metabolism, Oocytes growth & development, Pregnancy Complications physiopathology
Abstract

Background: The adverse effects of maternal diabetes on oocyte maturation and embryo development have been reported., Methods: In this study, we used time-lapse live cell imaging confocal microscopy to investigate the dynamic changes of ER and the effects of diabetes on the ER's structural dynamics during oocyte maturation, fertilization and early embryo development., Results: We report that the ER first became remodeled into a dense ring around the developing MI spindle, and then surrounded the spindle during migration to the cortex. ER reorganization during mouse early embryo development was characterized by striking localization around the pronuclei in the equatorial section, in addition to larger areas of fluorescence deeper within the cytoplasm. In contrast, in diabetic mice, the ER displayed a significantly higher percentage of homogeneous distribution patterns throughout the entire ooplasm during oocyte maturation and early embryo development. In addition, a higher frequency of large ER aggregations was detected in GV oocytes and two cell embryos from diabetic mice., Conclusions: These results suggest that the diabetic condition adversely affects the ER distribution pattern during mouse oocyte maturation and early embryo development.

Published
2013
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43. Theranostic nanoparticles with controlled release of gemcitabine for targeted therapy and MRI of pancreatic cancer.

Author

Lee GY, Qian WP, Wang L, Wang YA, Staley CA, Satpathy M, Nie S, Mao H, and Yang L

Subjects
Animals, Antineoplastic Agents pharmacokinetics, Cell Line, Tumor, Deoxycytidine administration & dosage, Deoxycytidine pharmacokinetics, Female, Humans, Magnetic Resonance Imaging, Magnetite Nanoparticles chemistry, Mice, Mice, Nude, Nanocapsules chemistry, Nanotechnology, Pancreatic Neoplasms metabolism, Pancreatic Neoplasms pathology, Urokinase-Type Plasminogen Activator metabolism, Xenograft Model Antitumor Assays, Gemcitabine, Antineoplastic Agents administration & dosage, Deoxycytidine analogs & derivatives, Magnetite Nanoparticles administration & dosage, Nanocapsules administration & dosage, Pancreatic Neoplasms drug therapy
Abstract

The tumor stroma in human cancers significantly limits the delivery of therapeutic agents into cancer cells. To develop an effective therapeutic approach overcoming the physical barrier of the stroma, we engineered urokinase plasminogen activator receptor (uPAR)-targeted magnetic iron oxide nanoparticles (IONPs) carrying chemotherapy drug gemcitabine (Gem) for targeted delivery into uPAR-expressing tumor and stromal cells. The uPAR-targeted nanoparticle construct, ATF-IONP-Gem, was prepared by conjugating IONPs with the amino-terminal fragment (ATF) peptide of the receptor-binding domain of uPA, a natural ligand of uPAR, and Gem via a lysosomally cleavable tetrapeptide linker. These theranostic nanoparticles enable intracellular release of Gem following receptor-mediated endocytosis of ATF-IONP-Gem into tumor cells and also provide contrast enhancement in magnetic resonance imaging (MRI) of tumors. Our results demonstrated the pH- and lysosomal enzyme-dependent release of gemcitabine, preventing the drug from enzymatic degradation. Systemic administrations of ATF-IONP-Gem significantly inhibited the growth of orthotopic human pancreatic cancer xenografts in nude mice. With MRI contrast enhancement by IONPs, we detected the presence of IONPs in the residual tumors following the treatment, suggesting the possibility of monitoring drug delivery and assessing drug-resistant tumors by MRI. The theranostic ATF-IONP-Gem nanoparticle has great potential for the development of targeted therapeutic and imaging approaches that are capable of overcoming the tumor stromal barrier, thus enhancing the therapeutic effect of nanoparticle drugs on pancreatic cancers.

Published
2013
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44. BKM1740, an acyl-tyrosine bisphosphonate amide derivative, inhibits the bone metastatic growth of human prostate cancer cells by inducing apoptosis.

Author

Seo SI, Gera L, Zhau HE, Qian WP, Iqbal S, Johnson NA, Zhang S, Zayzafoon M, Stewart J, Wang R, Chung LW, and Wu D

Subjects
Amides, Animals, Cell Line, Tumor, Cell Proliferation, Culture Media, Conditioned pharmacology, Flow Cytometry, Humans, Male, Mice, Neoplasm Metastasis, Neoplasm Transplantation, Tyrosine pharmacology, Antineoplastic Agents pharmacology, Apoptosis, Bone Neoplasms drug therapy, Bone Neoplasms secondary, Diphosphonates pharmacology, Prostatic Neoplasms drug therapy, Prostatic Neoplasms pathology, Tyrosine analogs & derivatives
Abstract

Purpose: Survivin overexpression has been associated with an unfavorable outcome in human PCa; however, its role in metastasis remains elusive. We aim to (a) evaluate the clinical implications of survivin expression in PCa bone metastasis; (b) determine in vivo efficacy of BKM1740, a small-molecule compound, against PCa skeletal growth and survival; and (c) investigate molecular mechanism by which BKM1740 augments apoptosis in bone metastatic PCa cells., Experimental Design: Survivin expression was analyzed in PCa specimens and experimental models. Bone metastatic C4-2 and ARCaP(M) cell lines were used to evaluate the in vitro effects of BKM1740 and molecular mechanism for the induction of apoptosis. C4-2 cells were grown intratibially in athymic nude mice to evaluate the in vivo efficacy of BKM1740. Tumor growth in mouse bone was assessed by serum prostate-specific antigen and radiography and confirmed by immunohistochemical analyses., Results: Survivin expression is positively associated with clinical PCa bone metastasis. BKM1740 induced apoptosis in PCa cells by repressing survivin. Mice with established C4-2 tumors in tibia showed a marked decrease in serum prostate-specific antigen and much improved bone architecture radiographically after treatment with BKM1740. Immunohistochemical assays of mouse tumor samples confirmed that the in vivo effects were mediated by inhibition of survivin and induction of apoptosis., Conclusions: Survivin expression is associated with PCa bone metastasis. BKM1740 treatment specifically inhibited survivin and induced apoptosis in vitro and was efficacious in retarding PCa skeletal growth in a mouse model. BKM1740 is a promising small-molecule compound that could be used to treat PCa bone metastasis.

Published
2008
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45. Beta2-microglobulin signaling blockade inhibited androgen receptor axis and caused apoptosis in human prostate cancer cells.

Author

Huang WC, Havel JJ, Zhau HE, Qian WP, Lue HW, Chu CY, Nomura T, and Chung LW

Subjects
Antibodies pharmacology, Apoptosis, Cell Line, Tumor, Cell Proliferation, Gene Expression Regulation, Neoplastic, Humans, Male, Neoplasms, Hormone-Dependent metabolism, Prostate-Specific Antigen metabolism, Signal Transduction, beta 2-Microglobulin immunology, beta 2-Microglobulin pharmacology, Prostatic Neoplasms metabolism, Receptors, Androgen metabolism, beta 2-Microglobulin metabolism
Abstract

Purpose: beta2-Microglobulin (beta2M) has been shown to promote osteomimicry and the proliferation of human prostate cancer cells. The objective of this study is to determine the mechanism by which targeting beta2M using anti-beta2M antibody inhibited growth and induced apoptosis in prostate cancer cells., Experimental Design: Polyclonal and monoclonal beta2M antibodies were used to interrupt beta2M signaling in human prostate cancer cell lines and the growth of prostate tumors in mice. The effects of the beta2M antibody on a survival factor, androgen receptor (AR), and its target gene, prostate-specific antigen (PSA) expression, were investigated in cultured cells and in tumor xenografts., Results: The beta2M antibody inhibited growth and promoted apoptosis in both AR-positive and PSA-positive, and AR-negative and PSA-negative, prostate cancer cells via the down-regulation of the AR in AR-positive prostate cancer cells and directly caused apoptosis in AR-negative prostate cancer cells in vitro and in tumor xenografts. The beta2M antibody had no effect on AR expression or the growth of normal prostate cells., Conclusions: beta2M downstream signaling regulates AR and PSA expression directly in AR-positive prostate cancer cells. In both AR-positive and AR-negative prostate cancer cells, interrupting beta2M signaling with the beta2M antibody inhibited cancer cell growth and induced its apoptosis. The beta2M antibody is a novel and promising therapeutic agent for the treatment of human prostate cancers.

Published
2008
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46. B cells and T cells are critical for the preservation of bone homeostasis and attainment of peak bone mass in vivo.

Author

Li Y, Toraldo G, Li A, Yang X, Zhang H, Qian WP, and Weitzmann MN

Subjects
Animals, Bone Density immunology, CD40 Antigens immunology, CD40 Ligand immunology, Mice, Mice, Knockout, Mice, Nude, Osteoblasts immunology, Osteoclasts immunology, Osteoporosis immunology, Osteoprotegerin immunology, RANK Ligand immunology, Tumor Necrosis Factor Decoy Receptors immunology, B-Lymphocytes immunology, Bone Resorption immunology, Homeostasis immunology, Osteogenesis immunology, T-Lymphocytes immunology
Abstract

Bone homeostasis is regulated by a delicate balance between osteoblastic bone formation and osteoclastic bone resorption. Osteoclastogenesis is controlled by the ratio of receptor activator of NF-kappaB ligand (RANKL) relative to its decoy receptor, osteoprotegerin (OPG). The source of OPG has historically been attributed to osteoblasts (OBs). While activated lymphocytes play established roles in pathological bone destruction, no role for lymphocytes in basal bone homeostasis in vivo has been described. Using immunomagnetic isolation of bone marrow (BM) B cells and B-cell precursor populations and quantitation of their OPG production by enzyme-linked immunosorbent assay (ELISA) and real-time reverse transcriptase-polymerase chain reaction (RT-PCR), cells of the B lineage were found to be responsible for 64% of total BM OPG production, with 45% derived from mature B cells. Consistently B-cell knockout (KO) mice were found to be osteoporotic and deficient in BM OPG, phenomena rescued by B-cell reconstitution. Furthermore, T cells, through CD40 ligand (CD40L) to CD40 costimulation, promote OPG production by B cells in vivo. Consequently, T-cell-deficient nude mice, CD40 KO mice, and CD40L KO mice display osteoporosis and diminished BM OPG production. Our data suggest that lymphocytes are essential stabilizers of basal bone turnover and critical regulators of peak bone mass in vivo.

Published
2007
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47. Rapid quantification of semen hepatitis B virus DNA by real-time polymerase chain reaction.

Author

Qian WP, Tan YQ, Chen Y, Peng Y, Li Z, Lu GX, Lin MC, Kung HF, He ML, and Shing LK

Subjects
DNA, Viral genetics, DNA, Viral isolation & purification, Hepatitis B virus genetics, Humans, Male, Reproductive Techniques, Assisted, Sensitivity and Specificity, Hepatitis B diagnosis, Hepatitis B virus isolation & purification, Reverse Transcriptase Polymerase Chain Reaction methods, Semen virology
Abstract

Aim: To examine the sensitivity and accuracy of real-time polymerase chain reaction (PCR) for the quantification of hepatitis B virus (HBV) DNA in semen., Methods: Hepatitis B viral DNA was isolated from HBV carriers' semen and sera using phenol extraction method and QIAamp DNA blood mini kit (Qiagen, Germany). HBV DNA was detected by conventional PCR and quantified by TaqMan technology-based real-time PCR (quantitative polymerase chain reaction (qPCR)). The detection threshold was 200 copies of HBV DNA for conventional PCR and 10 copies of HBV DNA for real time PCR per reaction., Results: Both methods of phenol extraction and QIAamp DNA blood mini kit were suitable for isolating HBV DNA from semen. The value of the detection thresholds was 500 copies of HBV DNA per mL in the semen. The viral loads were 7.5X10(7) and 1.67X10(7) copies of HBV DNA per mL in two HBV infected patients' sera, while 2.14X10(5) and 3.02X10(5) copies of HBV DNA per mL in the semen., Conclusion: Real-time PCR is a more sensitive and accurate method to detect and quantify HBV DNA in the semen.

Published
2005
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48. IL-7 induces bone loss in vivo by induction of receptor activator of nuclear factor kappa B ligand and tumor necrosis factor alpha from T cells.

Author

Toraldo G, Roggia C, Qian WP, Pacifici R, and Weitzmann MN

Subjects
Adoptive Transfer, Animals, Bone Resorption immunology, Bone Resorption pathology, Carrier Proteins metabolism, Cells, Cultured, Glycoproteins metabolism, Lymphocyte Transfusion, Membrane Glycoproteins metabolism, Mice, Mice, Nude, Osteoclasts immunology, Osteoprotegerin, RANK Ligand, Receptor Activator of Nuclear Factor-kappa B, Receptors, Cytoplasmic and Nuclear metabolism, Receptors, Tumor Necrosis Factor metabolism, T-Lymphocytes pathology, Bone Resorption chemically induced, Interleukin-7 pharmacology, NF-kappa B metabolism, T-Lymphocytes immunology, Tumor Necrosis Factor-alpha immunology
Abstract

IL-7, a powerful lymphopoietic cytokine, is elevated in rheumatoid arthritis (RA) and known to induce bone loss when administered in vivo. IL-7 has been suggested to induce bone loss, in part, by stimulating the proliferation of B220(+) cells, a population capable of acting as early osteoclast (OC) precursors. However, the mechanism by which IL-7 leads to differentiation of precursors into mature OCs remains unknown. We previously reported that, in vitro, IL-7 up-regulated T cell cytokines including receptor activator of nuclear factor kappaB ligand (RANKL). To demonstrate the importance of T cells to the bone-wasting effect of IL-7 in vivo, we have now examined IL-7-induced bone loss in T cell-deficient nude mice. We show that T cell-replete mice undergo significant osteoclastic bone loss after IL-7 administration, concurrent with induction of RANKL and tumor necrosis factor alpha (TNF-alpha) secretion by splenic T cells. In contrast, nude mice were resistant to IL-7-induced bone loss and showed no detectable increase in either RANKL or TNF-alpha, despite an up-regulation of B220(+) cells. Importantly, T cell adoptive transfer into nude mice restored IL-7-induced bone loss, and RANKL and TNF-alpha secretion, demonstrating that T cells are essential mediators of IL-7-induced bone loss in vivo.

Published
2003
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