Lan‐Juan Zhao scite author profile

It was previously believed that obesity and osteoporosis were two unrelated diseases, but recent studies have shown that both diseases share several common genetic and environmental factors. Body fat mass, a component of body weight, is one of the most important indices of obesity, and a substantial body of evidence indicates that fat mass may have beneficial effects on bone. Contrasting studies, however, suggest that excessive fat mass may not protect against osteoporosis or osteoporotic fracture. Differences in experimental design, sample structure, and even the selection of covariates may account for some of these inconsistent or contradictory results. Despite the lack of a clear consensus regarding the impact of effects of fat on bone, a number of mechanistic explanations have been proposed to support the observed epidemiologic and physiologic associations between fat and bone. The common precursor stem cell that leads to the differentiation of both adipocytes and osteoblasts, as well the secretion of adipocyte-derived hormones that affect bone development, may partially explain these associations. Based on our current state of knowledge, it is unclear whether fat has beneficial effects on bone. We anticipate that this will be an active and fruitful focus of research in the coming years.

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MiR-138 induces cell cycle arrest by targeting cyclin D3 in hepatocellular carcinoma

Wang

Zhao²,

Tan

et al. 2012

196

154

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The deregulation of microRNA (miRNA) is frequently associated with a variety of cancers, including hepatocellular carcinoma (HCC). In this study, we identified 10 upregulated miRNAs (miR-217, miR-518b, miR-517c, miR-520g, miR-519a, miR-522, miR-518e, miR-525-3p, miR-512-3p and miR-518a-3p) and 10 downregulated miRNAs (miR-138, miR-214, miR-214#, miR-27a#, miR-199a-5p, miR-433, miR-511, miR-592, miR-483-5p and miR-483-3p) by Taqman miRNAs array and quantitative real-time PCR (qRT–PCR) confirmation. Additionally, we investigated the expression and possible role of miR-138 in HCC. qRT–PCR results showed that miR-138 was downregulated in 77.8%(14/18) of HCC tissues compared with adjacent non-tumor tissues. Overexpression of miR-138 reduced cell viability and colony formation by induction of cell arrest in HCC cell lines and inhibited tumor cell growth in xenograft nude mice. The use of miR-138 inhibitor increased cell viability and colony formation in HCC cell lines and tumor cell growth in xenograft nude mice. Using TargetScan predictions, CCND3 was defined as a potential direct target of miR-138. Furthermore, CCND3 protein expression was observed to be negatively correlated with miR-138 expression in HCC tissues. The dual-luciferase reporter gene assay results showed that CCND3 was a direct target of miR-138. The use of miR-138 mimic or inhibitor could decrease or increase CCND3 protein levels in HCC cell lines. We conclude that the frequently downregulated miR-138 can regulate CCND3 and function as a tumor suppressor in HCC. Therefore, miR-138 may serve as a useful therapeutic agent for miRNA-based HCC therapy.

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Hepatitis C virus E2 protein promotes human hepatoma cell proliferation through the MAPK/ERK signaling pathway via cellular receptors

Zhao

Wang

Ren

et al. 2005

Experimental Cell Research

107

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Acetyl‐coenzyme A carboxylase alpha promotion of glucose‐mediated fatty acid synthesis enhances survival of hepatocellular carcinoma in mice and patients

Wang

et al. 2016

Hepatology

113

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Solid tumors often suffer from suboptimal oxygen and nutrient supplies. This stress underlies the requirement for metabolic adaptation. Aberrantly activated de novo lipogenesis is critical for development and progression of human hepatocellular carcinoma (HCC). However, whether de novo lipogenesis influences biological behaviors of HCCs under conditions of metabolic stress are still poorly understood. Here, we show that HCCs display distinct levels of glucose-derived de novo lipogenesis, which are positively correlated with their survival responses to glucose limitation. The enhanced lipogenesis in HCCs is characterized by an increased expression of rate-limiting enzyme acetyl-coenzyme A carboxylase alpha (ACCa). ACCa-mediated fatty acid (FA) synthesis determines the intracellular lipid content that is required to maintain energy hemostasis and inhibit cell death by means of FA oxidation (FAO) during metabolic stress. In accord, overexpression of ACCa facilitates tumor growth. ACCa forms a complex with carnitine palmitoyltransferase 1A (CPT1A) and prevents its mitochondria distribution under nutrient-sufficient conditions. During metabolic stress, phosphorylation of ACCa leads to dissociation of the complex and mitochondria localization of CPT1A, thus promoting FAO-mediated cell survival. Therefore, ACCa could provide both the substrate and enzyme storage for FAO during glucose deficiency. Up-regulation of ACCa is also significantly correlated with poorer overall survival and disease recurrence postsurgery. Multivariate Cox's regression analysis identified ACCa as an effective predictor of poor prognosis. Conclusion: ACCa plays a pivotal role in maintaining HCC survival under metabolic stress. It could be exploited as a novel diagnostic marker and therapeutic target. (HEPATOLOGY 2016;63:1272-1286 H epatocellular carcinoma (HCC) is the third leading cause of cancer-related mortality worldwide.(1,2) Most HCC patients are considered to be incurable as a result of extensive heterogeneity in clinical presentations and tumor biology, which complicates the classification for therapy. (3,4) Identifying distinct subgroups in the HCC population with similar tumor biology is thus imperative to improve responses to various types of cancer treatment.Although many malignant tumors share common metabolic transformations, such as aerobic glycolysis, (5,6) the cellular metabolic phenotypes of cancer cellsAbbreviations: 2-DG, 2-deoxyglucose; 2-NBDG, 2-(N-(7-nitrobenz-2-oxa-1,3-diazol-4-yl)Amino)-2-deoxyglucose; ACC, acetyl-CoA carboxylase;

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Small nucleolar RNA 113–1 suppresses tumorigenesis in hepatocellular carcinoma

Yang

Ding

et al. 2014

Mol Cancer

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BackgroundEmerging evidence suggests that small nucleolar RNAs (snoRNAs) are involved in tumorigenesis. The roles of small nucleolar RNA 113–1 (SNORD113-1) on the development of hepatocellular carcinoma (HCC) remain unknown.MethodsThe expression of SNORD113-1 was measured in 112 HCC tumor tissues using quantitative RT-PCR and compared with expression levels from with paired non-tumor tissues. The effects of SNORD113-1 on HCC tumorigenesis were investigated in HepG2 and Huh7 cells as well as a xenograft nude mouse model. CpG methylation within the promoter region of the SNORD113-1 gene was identified using Sodium bisulfite sequencing. Cancer pathway reporter investigate the mechanism by which SNORD113-1 suppressed tumorigenesis.ResultsSNORD113-1 expression was significantly downregulated in HCC tumors compared with adjacent non-tumor tissues, and downregulation of SNORD113-1 in HCC tumors was significantly associated with worse survival of patients. In addition, CpG methylation at the promoter region of the SNORD113-1 gene was higher in HCC tumors than adjacent non-tumor tissues. Functionally, SNORD113-1 suppressed cancer cell growth in HepG2 and Huh7 cells and in a xenograft nude mouse model. Furthermore, SNORD113-1 inactivated the phosphorylation of ERK1/2 and SMAD2/3 in MAPK/ERK and TGF-β pathways.ConclusionsSNORD113-1 functions as a tumor suppressor role in HCC and may be important as a potential diagnostic and therapeutic target for HCC.Electronic supplementary materialThe online version of this article (doi:10.1186/1476-4598-13-216) contains supplementary material, which is available to authorized users.

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Lan‐Juan Zhao

Correlation of Obesity and Osteoporosis: Effect of Fat Mass on the Determination of Osteoporosis

MiR-138 induces cell cycle arrest by targeting cyclin D3 in hepatocellular carcinoma

Hepatitis C virus E2 protein promotes human hepatoma cell proliferation through the MAPK/ERK signaling pathway via cellular receptors

Acetyl‐coenzyme A carboxylase alpha promotion of glucose‐mediated fatty acid synthesis enhances survival of hepatocellular carcinoma in mice and patients

Small nucleolar RNA 113–1 suppresses tumorigenesis in hepatocellular carcinoma

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