“Um monte de buracos amarrados com barbantes”: o conceito de rede para os profissionais da saúde mental

TWEAK cytokine has been implicated in several biological responses including inflammation, angiogenesis, and osteoclastogenesis. We have investigated the role of TWEAK in regulating skeletal muscle mass. Addition of soluble TWEAK protein to cultured myotubes reduced the mean myotube diameter and enhanced the degradation of specific muscle proteins such as CK and MyHCf. The effect of TWEAK on degradation of MyHCf was stronger than its structural homologue, TNF-alpha. TWEAK increased the ubiquitination of MyHCf and the transcript levels of atrogin-1 and MuRF1 ubiquitin ligases. TWEAK inhibited phosphorylation of Akt kinase and its downstream targets GSK-3beta, FOXO1, mTOR, and p70S6K. Furthermore, TWEAK increased the activation of NF-kappaB transcription factor in myotubes. Adenoviral-mediated overexpression of IkappaB alpha deltaN (a degradation-resistant mutant of NF-kappaB inhibitory protein IkappaB alpha) in myotubes blocked the TWEAK-induced degradation of MyHCf. Chronic administration of TWEAK in mice resulted in reduced body and skeletal muscle weight with an associated increase in the activity of ubiquitin-proteasome system and NF-kappaB. Finally, muscle-specific transgenic overexpression of TWEAK decreased the body and skeletal muscle weight in mice. Collectively, our data suggest that TWEAK induces skeletal muscle atrophy through inhibition of the PI3K/Akt signaling pathway and activation of the ubiquitin-proteasome and NF-kappaB systems.

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Osteocalcin is necessary for the alignment of apatite crystallites, but not glucose metabolism, testosterone synthesis, or muscle mass

Moriishi

et al. 2020

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The strength of bone depends on bone quantity and quality. Osteocalcin (Ocn) is the most abundant noncollagenous protein in bone and is produced by osteoblasts. It has been previously claimed that Ocn inhibits bone formation and also functions as a hormone to regulate insulin secretion in the pancreas, testosterone synthesis in the testes, and muscle mass. We generated Ocn-deficient (Ocn -/-) mice by deleting Bglap and Bglap2. Analysis of Ocn -/ mice revealed that Ocn is not involved in the regulation of bone quantity, glucose metabolism, testosterone synthesis, or muscle mass. The orientation degree of collagen fibrils and size of biological apatite (BAp) crystallites in the c-axis were normal in the Ocn -/bone. However, the crystallographic orientation of the BAp c-axis, which is normally parallel to collagen fibrils, was severely disrupted, resulting in reduced bone strength. These results demonstrate that Ocn is required for bone quality and strength by adjusting the alignment of BAp crystallites parallel to collagen fibrils; but it does not function as a hormone.

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Structure-Function Analysis of the Human Insulin-like Growth Factor Binding Protein-4

Qin¹,

Strong²,

Baylink³

et al. 1998

Journal of Biological Chemistry

115

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Di‐(2‐ethylhexyl) phthalate and bisphenol A exposure impairs mouse primordial follicle assembly in vitro

Zhang

Qin

et al. 2014

Environ and Mol Mutagen

102

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Bisphenol-A (BPA) and diethylhexyl phthalate (DEHP) are estrogenic compounds widely used in commercial plastic products. Previous studies have shown that exposure to such compounds have adverse effects on various aspects of mammalian reproduction including folliculogenesis. The objective of this study was to examine the effects of BPA and DEHP exposure on primordial follicle formation. We found that germ cell nest breakdown and primordial follicle assembly were significantly reduced when newborn mouse ovaries were exposed to 10 or 100 μM BPA and DEHP in vitro. Moreover, BPA and DEHP exposure increased the number of TUNEL positive oocytes and the mRNA level of the pro-apoptotic gene Bax in oocytes. These effects were associated with decreased expression of oocyte specific genes such as LIM homeobox 8 (Lhx8), factor in the germline alpha (Figla), spermatogenesis and oogenesis helix-loop-helix (Sohlh2), and newborn ovary homeobox (Nobox). Interestingly, BPA and DEHP exposure also prevented DNA demethylation of CpG sites of the Lhx8 gene in oocytes, a process normally associated with folliculogenesis. Finally, folliculogenesis was severely impaired in BPA and DEHP exposed ovaries after transplantation into the kidney capsules of immunodeficient mice. In conclusion, BPA and DEHP exposures impair mouse primordial follicle assembly in vitro.

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Runx2 is required for the proliferation of osteoblast progenitors and induces proliferation by regulating Fgfr2 and Fgfr3

Kawane

Qin

Jiang

et al. 2018

Sci Rep

125

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Runx2 and Sp7 are essential transcription factors for osteoblast differentiation. However, the molecular mechanisms responsible for the proliferation of osteoblast progenitors remain unclear. The early onset of Runx2 expression caused limb defects through the Fgfr1–3 regulation by Runx2. To investigate the physiological role of Runx2 in the regulation of Fgfr1–3, we compared osteoblast progenitors in Sp7−/− and Runx2−/− mice. Osteoblast progenitors accumulated and actively proliferated in calvariae and mandibles of Sp7−/− but not of Runx2−/− mice, and the number of osteoblast progenitors and their proliferation were dependent on the gene dosage of Runx2 in Sp7−/− background. The expression of Fgfr2 and Fgfr3, which were responsible for the proliferation of osteoblast progenitors, was severely reduced in Runx2−/− but not in Sp7−/− calvariae. Runx2 directly regulated Fgfr2 and Fgfr3, increased the proliferation of osteoblast progenitors, and augmented the FGF2-induced proliferation. The proliferation of Sp7−/− osteoblast progenitors was enhanced and strongly augmented by FGF2, and Runx2 knockdown reduced the FGF2-induced proliferation. Fgfr inhibitor AZD4547 abrogated all of the enhanced proliferation. These results indicate that Runx2 is required for the proliferation of osteoblast progenitors and induces proliferation, at least partly, by regulating Fgfr2 and Fgfr3 expression.

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In vitro differentiation of human embryonic stem cells into ovarian follicle-like cells

Jung

Xiong

et al. 2017

Nat Commun

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Understanding the unique mechanisms of human oogenesis necessitates the development of an in vitro system of stem cell differentiation into oocytes. Specialized cell types and organoids have been derived from human pluripotent stem cells in vitro, but generating a human ovarian follicle remains a challenge. Here we report that human embryonic stem cells can be induced to differentiate into ovarian follicle-like cells (FLCs) in vitro. First, we find that two RNA-binding proteins specifically expressed in germ cells, DAZL and BOULE, regulate the exit from pluripotency and entry into meiosis. By expressing DAZL and BOULE with recombinant human GDF9 and BMP15, these meiotic germ cells are further induced to form ovarian FLCs, including oocytes and granulosa cells. This robust in vitro differentiation system will allow the study of the unique molecular mechanisms underlying human pluripotent stem cell differentiation into late primordial germ cells, meiotic germ cells and ovarian follicles.

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Pregnancy-Associated Plasma Protein-A Increases Osteoblast Proliferation in Vitro and Bone Formation in Vivo

Qin¹,

Wergedal²,

Rehage³

et al. 2006

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Pregnancy-associated plasma protein (PAPP)-A, a protease for IGF binding protein (IGFBP)-2, -4, and -5, may enhance IGF action by increasing its bioavailability. Here we have determined the role and mechanism of action of PAPP-A in the regulation of osteoblast proliferation in vitro and bone metabolism in vivo. Recombinant PAPP-A (100 ng/ml) significantly increased osteoblast proliferation and free IGF-I concentration. These effects were abolished by noncleavable IGFBP-4, suggesting that PAPP-A promotes osteoblast proliferation by increasing IGF bioavailability. To determine whether PAPP-A exerts an anabolic effect on bone in vivo, we developed transgenic mice that overexpress PAPP-A in osteoblasts using the 2.3-kb rat type I collagen promoter. Consistent with the increase in IGFBP-4 proteolysis, free IGF-I concentration was significantly increased in the conditioned medium of cultured osteoblasts derived from transgenic mice compared with the wild-type littermates. Calvarial bone thickness, bone marrow cavity, and skull bone mineral density were significantly increased in transgenic mice. Bone size-related parameters in femur and tibia such as total bone area and periosteal circumference as determined by peripheral quantitated computed tomography and histological analysis were significantly increased in transgenic mice. Bone formation rate and osteoid surface were increased by more than 2-fold, whereas bone resorbing surface was unaffected. These anabolic effects were sustained with aging. These findings provide strong evidence that PAPP-A acts as a potent anabolic factor in the regulation of bone formation. Thus, enhancing IGF bioavailability by PAPP-A can be a powerful strategy in the treatment of certain metabolic diseases such as osteoporosis.

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Cbfb Regulates Bone Development by Stabilizing Runx Family Proteins

Qin

Jiang

Matsuo

et al. 2014

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Runx family proteins, Runx1, Runx2, and Runx3, play important roles in skeletal development. Runx2 is required for osteoblast differentiation and chondrocyte maturation, and haplodeficiency of RUNX2 causes cleidocranial dysplasia, which is characterized by open fontanelles and sutures and hypoplastic clavicles. Cbfb forms a heterodimer with Runx family proteins and enhances their DNAbinding capacity. Cbfb-deficient (Cbfb À/À ) mice die at midgestation because of the lack of fetal liver hematopoiesis. We previously reported that the partial rescue of hematopoiesis in Cbfb À/À mice revealed the requirement of Cbfb in skeletal development. However, the precise functions of Cbfb in skeletal development still remain to be clarified. We deleted Cbfb in mesenchymal cells giving rise to both chondrocyte and osteoblast lineages by mating Cbfb fl/fl mice with Dermo1 Cre knock-in mice. Cbfb fl/fl/Cre mice showed dwarfism, both intramembranous and endochondral ossifications were retarded, and chondrocyte maturation and proliferation and osteoblast differentiation were inhibited. The differentiation of chondrocytes and osteoblasts were severely inhibited in vitro, and the reporter activities of Ihh, Col10a1, and Bglap2 promoter constructs were reduced in Cbfb fl/fl/Cre chondrocytes or osteoblasts. The proteins of Runx1, Runx2, and Runx3 were reduced in the cartilaginous limb skeletons and calvariae of Cbfb fl/fl/Cre embryos compared with the respective protein in the respective tissue of Cbfb fl/fl embryos at E15.5, although the reduction of Runx2 protein in calvariae was much milder than that in cartilaginous limb skeletons. All of the Runx family proteins were severely reduced in Cbfb fl/fl/Cre primary osteoblasts, and Runx2 protein was less stable in Cbfb fl/fl/Cre osteoblasts than Cbfb fl/fl osteoblasts. These findings indicate that Cbfb is required for skeletal development by regulating chondrocyte differentiation and proliferation and osteoblast differentiation; that Cbfb plays an important role in the stabilization of Runx family proteins; and that Runx2 protein stability is less dependent on Cbfb in calvariae than in cartilaginous limb skeletons.

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Xu‐Jie Qin

TNF‐related weak inducer of apoptosis (TWEAK) is a potent skeletal muscle‐wasting cytokine

Osteocalcin is necessary for the alignment of apatite crystallites, but not glucose metabolism, testosterone synthesis, or muscle mass

Structure-Function Analysis of the Human Insulin-like Growth Factor Binding Protein-4

Di‐(2‐ethylhexyl) phthalate and bisphenol A exposure impairs mouse primordial follicle assembly in vitro

Runx2 is required for the proliferation of osteoblast progenitors and induces proliferation by regulating Fgfr2 and Fgfr3

In vitro differentiation of human embryonic stem cells into ovarian follicle-like cells

Pregnancy-Associated Plasma Protein-A Increases Osteoblast Proliferation in Vitro and Bone Formation in Vivo

Cbfb Regulates Bone Development by Stabilizing Runx Family Proteins

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