Your search keyword '"Jianquan, Chen"' showing total 9 results

1. mTORC1 signaling controls mammalian skeletal growth through stimulation of protein synthesis.

Author

Jianquan Chen and Fanxin Long

Subjects

*MAMMALIAN cell cycle, *CELL cycle, *CARTILAGE, *PROTEIN synthesis, *HYPERTROPHY

Abstract

Much of the mammalian skeleton is derived from a cartilage template that undergoes rapid growth during embryogenesis, but the molecular mechanism of growth regulation is not well understood. Signaling by mammalian target of rapamycin complex 1 (mTORC1) is an evolutionarily conserved mechanism that controls cellular growth. Here we report that mTORC1 signaling is activated during limb cartilage development in the mouse embryo. Disruption of mTORC1 signaling through deletion of either mTOR or the associated protein Raptor greatly diminishes embryonic skeletal growth associated with severe delays in chondrocyte hypertrophy and bone formation. The growth reduction of cartilage is not due to changes in chondrocyte proliferation or survival, but is caused by a reduction in cell size and in the amount of cartilagematrix. Metabolic labeling reveals a notable deficit in the rate of protein synthesis in Raptor-deficient chondrocytes. Thus, mTORC1 signaling controls limb skeletal growth through stimulation of protein synthesis in chondrocytes. [ABSTRACT FROM AUTHOR]

Published

2014

2. Physiological Notch Signaling Maintains Bone Homeostasis via RBPjk and Hey Upstream of NFATc1.

Author

Xiaolin Tu, Jianquan Chen, Joohyun Lim, Karner, Courtney M., Seung-Yon Lee, Heisig, Julia, Wiese, Cornelia, Surendran, Kameswaran, Kopan, Raphael, Gessler, Manfred, and Fanxin Long

Subjects

*METAZOA, *EMBRYOLOGY, *OSTEOBLASTS, *MESENCHYMAL stem cells, *PHARMACOLOGY

Abstract

Notch signaling between neighboring cells controls many cell fate decisions in metazoans both during embryogenesis and in postnatal life. Previously, we uncovered a critical role for physiological Notch signaling in suppressing osteoblast differentiation in vivo. However, the contribution of individual Notch receptors and the downstream signaling mechanism have not been elucidated. Here we report that removal of Notch2, but not Notch1, from the embryonic limb mesenchyme markedly increased trabecular bone mass in adolescent mice. Deletion of the transcription factor RBPjk, a mediator of all canonical Notch signaling, in the mesenchymal progenitors but not the more mature osteoblast-lineage cells, caused a dramatic high-bone-mass phenotype characterized by increased osteoblast numbers, diminished bone marrow mesenchymal progenitor pool, and rapid age-dependent bone loss. Moreover, mice deficient in Hey1 and HeyL, two target genes of Notch-RBPjk signaling, exhibited high bone mass. Interestingly, Hey1 bound to and suppressed the NFATc1 promoter, and RBPjk deletion increased NFATc1 expression in bone. Finally, pharmacological inhibition of NFAT alleviated the high-bone-mass phenotype caused by RBPjk deletion. Thus, Notch-RBPjk signaling functions in part through Hey1- mediated inhibition of NFATc1 to suppress osteoblastogenesis, contributing to bone homeostasis in vivo. [ABSTRACT FROM AUTHOR]

Published

2012

3. Fast docking of drug molecules to their receptor.

Author

Jianquan, Chen and Hanlin, Chi

Subjects

*CONFORMATIONAL analysis, *SIMULATED annealing, *ALGORITHMS

Abstract

Presents information on a study which developed AEDock based on AutoDock2.4 with annealing evolution algorithm for supermolecular conformation searching. Function of molecular docking algorithms; Details on simulated annealing algorithm; Results and discussions; Conclusions.

Published

1999

4. Maternal androgen exposure induces intergenerational effects via paternal inheritance.

Author

Yu Zhou, Chao Lian, Yingfei Lu, Tianming Wang, Chengcheng Zhao, Cuilan Zhang, Min Gong, Jianquan Chen, and Rong Ju

Abstract

Polycystic ovary syndrome (PCOS) is a condition resulting from the interaction between environmental factors and hereditary components, profoundly affecting offspring development. Although the etiology of this disease remains unclear, aberrant in utero androgen exposure is considered one of the pivotal pathogenic factors. Herein, we demonstrate the intergenerational inheritance of PCOS-like phenotypes in F2 female offspring through F1 males caused by maternal testosterone exposure in F0 mice. We found impaired serum hormone expression and reproductive system development in prenatal testosterone-treated F1 male and F2 female mice (PTF1 and PTF2). In addition, downregulated N6-methyladenosine (m6A) methyltransferase and binding proteins induced mRNA hypomethylation in the PTF1 testis, including frizzled-6 (Fzd6). In the PTF2 ovary, decreased FZD6 protein expression inhibited the mammalian target of rapamycin (mTOR) signaling pathway and activated Forkhead box O3 (FoxO3) phosphorylation, which led to impaired follicular development. These data indicate that epigenetic modification of the mTOR signaling pathway could be involved in the intergenerational inheritance of maternal testosterone exposureinduced impairments in the PTF2 ovary through male PTF1 mice. [ABSTRACT FROM AUTHOR]

Published

2024

5. Electroacupuncture-Modulated MiR106b-5p Expression Enhances Autophagy by Targeting Beclin-1 to Promote Motor Function Recovery After Spinal Cord Injury in Rats.

Author

Shuhui Guo, Jianmin Chen, Ye Yang, Xiaolu Li, Yun Tang, Yuchang Gui, Jianquan Chen, and Jianwen Xu

Subjects

*SPINAL cord injuries, *AUTOPHAGY, *CELL morphology, *TRANSMISSION electron microscopy, *POLYMERASE chain reaction

Abstract

Objective: Electroacupuncture (EA) has a definite effect on the treatment of spinal cord injuries (SCIs), but its underlying molecular mechanism remains unclear. Meanwhile, MiR106b-5p is an autophagy- and apoptosis-related microribonucleic acid, but whether it regulates the progression of autophagy and apoptosis in SCIs is yet undetermined. As such, this study aimed to elucidate the involvement of miR-106b-5p in the EA treatment of an SCI. Methods: The miR-106b-5p level was detected by quantitative real-time polymerase chain reaction. In vitro, SH-SY5Y cells were transfected with miR-106b-5p mimics or inhibitors to regulate the miR-106b-5p expression, while in vivo, SCI rats were treated with EA for 7 days at the bilateral Zusanli (ST36) and Jiaji (EX-B2) acupoints. The motor function was evaluated using the Basso-Beattie-Bresnahan (BBB) criteria. Further, autophagic vacuoles, pathological damage, and neuronal cell morphology were observed by transmission electron microscopy, as well as by hematoxylin and eosin and Nissl staining, respectively. Results: The miR-106b-5p level, which can interact directly with Beclin-1 by influencing its expression, as well as the expressions of P62, Caspase-3, and Bax, was upregulated after an SCI, but it decreased after EA. Moreover, the ratio of LC3-II to LC3-I was upregulated after EA. EA can enhance autophagy, reduce neuronal apoptosis, and minimize motor dysfunction and histopathological deficits after an SCI. More importantly, however, all the above effects induced by EA can be reversed after an injection of miR-106-5p agomir to produce an overexpression of miR-106b-5p. Conclusion: EA treatment could downregulate miR-106b-5p to alleviate SCI-mediated injuries by promoting autophagy and inhibiting apoptosis. [ABSTRACT FROM AUTHOR]

Published

2023

6. Prenatal androgen excess impairs beta-cell function by decreased sirtuin 3 expression.

Author

Yu Zhou, Min Gong, Yingfei Lu, Jianquan Chen, and Rong Ju

Subjects

*PANCREATIC beta cells, *ANDROGENS, *CYCLIC adenylic acid, *TESTOSTERONE, *GLUCOSE intolerance

Abstract

Prenatal androgen exposure induces metabolic disorders in femal e offspring. However, the long-term effect of maternal testosterone excess on glucose metabolism, especially on pancreatic beta-cell function, is rarely investigated. Our c urrent study mainly focused on the effects of prenatal testosterone exposure on glucose meta bolism and pancreatic beta-cell function in aged female offspring. By using maternal mice and their female offspring as animal models, we found that prenatal androgen trea tment induced obesity and glucose intolerance in aged offspring. These influenc es were accompanied by decreased fasting serum insulin concentration, elevated seru m triglyceride, and testosterone concentrations. Glucose stimulated insulin secretion in pancreatic beta cells of aged female offspring was also affected by prenatal test osterone exposure. We further confirmed that increased serum testosterone contributed to downregulation of sirtuin 3 expression, activated oxidative stress, and impair ed pancreatic beta-cell function in aged female offspring. Moreover, over-expression of sirtuin 3 in islets isolated from female offspring treated with prenatal testosteron e normalized the oxidative stress level, restored cyclic AMP, and ATP generation, which finally improved glucose-stimulated insulin secretion in beta cells. Taken toget her, these results demonstrated that prenatal testosterone exposure caused a metab olic disturbance in aged female offspring via suppression of sirtuin 3 expression an d activation of oxidative stress in pancreatic beta cells. [ABSTRACT FROM AUTHOR]

Published

2021

7. FGF signaling in the osteoprogenitor lineage non-autonomously regulates postnatal chondrocyte proliferation and skeletal growth.

Author

Karuppaiah, Kannan, Kai Yu, Joohyun Lim, Jianquan Chen, Smith, Craig, Fanxin Long, and Ornitz, David M.

Subjects

*FIBROBLAST growth factors, *SKELETAL maturity, *CARTILAGE cells, *OSTEOPROTEGERIN, *LABORATORY mice

Abstract

Fibroblast growth factor (FGF) signaling is important for skeletal development; however, cell-specific functions, redundancy and feedback mechanisms regulating bone growth are poorly understood. FGF receptors 1 and 2 (Fgfr1 and Fgfr2) are both expressed in the osteoprogenitor lineage. Double conditional knockout mice, in which both receptors were inactivated using an osteoprogenitor-specific Cre driver, appeared normal at birth; however, these mice showed severe postnatal growth defects that include an~50%reduction in bodyweight and bone mass, and impaired longitudinal bone growth. Histological analysis showed reduced cortical and trabecular bone, suggesting cellautonomous functions of FGF signaling during postnatal bone formation. Surprisingly, the double conditional knockout mice also showed growth plate defects and an arrest in chondrocyte proliferation. We provide genetic evidence of a non-cell-autonomous feedback pathway regulating Fgf9, Fgf18 and Pthlh expression, which led to increased expression and signaling of Fgfr3 in growth plate chondrocytes and suppression of chondrocyte proliferation. These observations show that FGF signaling in the osteoprogenitor lineage is obligately coupled to chondrocyte proliferation and the regulation of longitudinal bone growth. [ABSTRACT FROM AUTHOR]

Published

2016

8. Close Relatedness between Exotic Nucleus and Cytoplast Can Improve the Postimplantation Development Rate of Cloned Intersubspecies Embryos.

Author

Hongying Sha, Pu Wang, Pengyue Zhang, Guoxiang Cheng, and Jianquan Chen

Subjects

*TRANSPLANTATION of cell nuclei, *SOMATIC cells, *CYTOPLASM, *CLONING, *EMBRYOS, *FIBROBLASTS, *OVUM

Abstract

AbstractTo improve intersubspecies cloning efficiency, this paper provides six kinds of SCNT embryos with different nuclear-cytoplasmic relatedness to compare the relatedness on the cloning efficiency. Three kinds of SCNT embryos with different relatedness are produced by using Boer goat fibroblast cells as nuclear donors and oocytes of Sannen goat, crossbred F1 (Sannen goat × Boer goat) and Boer goat as cytoplast recipients. Four kinds of SCNT embryos with different relatedness are produced by using Sannen goat oocytes as recipients and fibroblast cells of Boer goat, crossbred F2 (crossbred F1 × Boer goat), crossbred F1, and Sannen goat as nuclear donors. Results show that no obvious differences were observed for preimplantation development of these SCNT embryos. However, different nuclear-cytoplasmic relatedness resulted in obvious differences for postimplantation development of these SCNT embryos. The relatedness is complementary: improving either cytoplasmic compatibility relatedness to nucleus or nuclear relatedness to cytoplast could reduce the gestation loss rate, and increase the birth rate of cloned intersubspecies embryos significantly. But a further amelioration of the relatedness did not improve the postimplantation development in direct proportion. These results suggested that close nuclear-cytoplasmic relatedness can improve the postimplantation development rate of cloned intersubspecies embryos. [ABSTRACT FROM AUTHOR]

Published

2009

9. Cloned goats (Gapra hircus) from foetal fibroblast cell lines.

Author

Yuge, Wang, Jie, Liu, Jingpu, Zhang, Xuechen, Zhang, Weidel, Lao, Miao, Du, Xiangang, Zou, Guoxing, Cheng, Yong, Cheng, Jianquan, Chen, Suolin, Zhang, and Shaofu, Xu

Subjects

*CLONING, *GOATS, *FIBROBLASTS, *CELL lines

Abstract

Presents information on a study which described the cloning of goats, Gapra hircus, from foetal fibroblast cell lines. Comparison of passage number and starvation period of goat foetal fibroblast cells; Morphological changes in goat foetal fibroblast cells cultured in vitro by transmission and scanning electron microscopy; Materials and methods of the study; Results and discussion.

Published

2000