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Browsing by Author "Wang, Liang"
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Item Body Mass Index Trajectories, Weight Gain, and Risks of Liver and Biliary Tract Cancers(Oxford University Press, 2022-08-12) Yang, Wanshui; Zeng, Xufen; Petrick, Jessica L.; Danford, Christopher J.; Florio, Andrea A.; Lu, Bing; Nan, Hongmei; Ma, Jiantao; Wang, Liang; Zeng, Hongmei; Sudenga, Staci L.; Campbell, Peter T.; Giovannucci, Edward; McGlynn, Katherine A.; Zhang, Xuehong; Epidemiology, School of Public HealthBackground: Little is known about the role of early obesity or weight change during adulthood in the development of liver cancer and biliary tract cancer (BTC). Methods: We investigated the associations of body mass index (BMI) and weight trajectories with the risk of liver cancer and BTC in the Prostate, Lung, Colorectal and Ovarian Cancer Screening Trial (PLCO). BMI was self-reported at ages 20, 50, and at enrollment. BMI trajectories were determined using latent class growth models. Cox regression was used to estimate hazard ratios (HRs) and 95% confidence intervals (CIs). Results: During a median follow-up of 15.9 years among 138,922 participants, 170 liver cancer and 143 BTC cases were identified. Compared with those whose BMI does not exceed 25 kg/m2, participants with BMI exceeding 25 kg/m2 at age 20 had increased risks of liver cancer (HR = 2.03, 95% CI: 1.26-3.28) and BTC (HR = 1.99, 95% CI: 1.16-3.39). Compared to participants maintaining normal BMI until enrollment, trajectory of normal weight at age 20 to obesity at enrollment was associated with increased risk for liver cancer (HR = 2.50, 95% CI: 1.55-4.04) and BTC (HR = 1.83, 95% CI: 1.03-3.22). Compared to adults with stable weight (+/-5kg) between age 20 to 50 years, weight gain ≥20 kg between ages 20 to 50 years had higher HRs of 2.24 (95%CI: 1.40-3.58) for liver cancer and 1.86 (95% CI: 1.12-3.09) for BTC. Conclusions: Being overweight/obese at age 20, and BMI trajectories that result in being overweight and/or obese, may increase risk for both liver cancer and BTC.Item The common parasite Toxoplasma gondii induces prostatic inflammation and microglandular hyperplasia in a mouse model(Wiley, 2017-07) Colinot, Darrelle L.; Garbuz, Tamila; Bosland, Maarten C.; Wang, Liang; Rice, Susan E.; Sullivan, William J.; Arrizabalaga, Gustavo; Jerde, Travis J.; Pharmacology and Toxicology, School of MedicineBACKGROUND: Inflammation is the most prevalent and widespread histological finding in the human prostate, and associates with the development and progression of benign prostatic hyperplasia and prostate cancer. Several factors have been hypothesized to cause inflammation, yet the role each may play in the etiology of prostatic inflammation remains unclear. This study examined the possibility that the common protozoan parasite Toxoplasma gondii induces prostatic inflammation and reactive hyperplasia in a mouse model. METHODS: Male mice were infected systemically with T. gondii parasites and prostatic inflammation was scored based on severity and focality of infiltrating leukocytes and epithelial hyperplasia. We characterized inflammatory cells with flow cytometry and the resulting epithelial proliferation with bromodeoxyuridine (BrdU) incorporation. RESULTS: We found that T. gondii infects the mouse prostate within the first 14 days of infection and can establish parasite cysts that persist for at least 60 days. T. gondii infection induces a substantial and chronic inflammatory reaction in the mouse prostate characterized by monocytic and lymphocytic inflammatory infiltrate. T. gondii-induced inflammation results in reactive hyperplasia, involving basal and luminal epithelial proliferation, and the exhibition of proliferative inflammatory microglandular hyperplasia in inflamed mouse prostates. CONCLUSIONS: This study identifies the common parasite T. gondii as a new trigger of prostatic inflammation, which we used to develop a novel mouse model of prostatic inflammation. This is the first report that T. gondii chronically encysts and induces chronic inflammation within the prostate of any species. Furthermore, T. gondii-induced prostatic inflammation persists and progresses without genetic manipulation in mice, offering a powerful new mouse model for the study of chronic prostatic inflammation and microglandular hyperplasia.Item Expansion of prostate epithelial progenitor cells after inflammation of the mouse prostate(American Physiological Society, 2015-06-15) Wang, Liang; Zoetemelk, Marloes; Chitteti, Brahmananda R.; Ratliff, Timothy L.; Myers, Jason D.; Srour, Edward F.; Broxmeyer, Hal; Jerde, Travis J.; Department of Pharmacology and Toxicology, IU School of MedicineProstatic inflammation is a nearly ubiquitous pathological feature observed in specimens from benign prostate hyperplasia and prostate cancer patients. The microenvironment of the inflamed prostate is highly reactive, and epithelial hyperplasia is a hallmark feature of inflamed prostates. How inflammation orchestrates epithelial proliferation as part of its repair and recovery action is not well understood. Here, we report that a novel epithelial progenitor cell population is induced to expand during inflammation. We used sphere culture assays, immunofluorescence, and flow cytometry to show that this population is increased in bacterially induced inflamed mouse prostates relative to naïve control prostates. We confirmed from previous reports that this population exclusively possesses the ability to regrow entire prostatic structures from single cell culture using renal grafts. In addition, putative progenitor cells harvested from inflamed animals have greater aggregation capacity than those isolated from naïve control prostates. Expansion of this critical cell population requires IL-1 signaling, as IL-1 receptor 1-null mice exhibit inflammation similar to wild-type inflamed animals but exhibit significantly reduced progenitor cell proliferation and hyperplasia. These data demonstrate that inflammation promotes hyperplasia in the mouse prostatic epithelium by inducing the expansion of a selected epithelial progenitor cell population in an IL-1 receptor-dependent manner. These findings may have significant impact on our understanding of how inflammation promotes proliferative diseases such as benign prostatic hyperplasia and prostate cancer, both of which depend on expansion of cells that exhibit a progenitor-like nature.Item Inflammation Impacts Androgen Receptor Signaling in Basal Prostate Stem Cells Through Interleukin 1 Receptor Antagonist(Research Square, 2023-12-15) Cooper, Paula O.; Yang, Jiang; Wang, Hsing-Hui; Broman, Meaghan M.; Awdalkreem, Gada D.; Cresswell, Gregory M.; Wang, Liang; Goossens, Emery; Lanman, Nadia A.; Doerge, Rebecca W.; Zheng, Faye; Cheng, Liang; Crist, Scott A.; Braun, Robert E.; Jerde, Travis J.; Ratliff, Timothy L.; Pharmacology and Toxicology, School of MedicineThe majority of patients with benign prostate hyperplasia (BPH) exhibit chronic prostate inflammation and the extent of inflammation correlates with the severity of symptoms. How inflammation contributes to prostate enlargement and/or BPH symptoms and the underlying mechanisms are not clearly understood. We established a unique mouse model Prostate Ovalbumin Expressing Transgenic 3 (POET3) that mimics chronic non-bacterial prostatitis in men to study the role of inflammation in prostate hyperplasia. After the injection of ovalbumin peptide-specific T cells, POET3 prostates exhibited an influx of inflammatory cells and an increase in pro-inflammatory cytokines that led to epithelial and stromal hyperplasia. We have previously demonstrated with the POET3 model that inflammation expands the basal prostate stem cell (bPSC) population and promotes bPSC differentiation in organoid cultures. In this study, we investigated the mechanisms underlying the impact of inflammation on bPSC. We found that AR activity was enhanced in inflamed bPSC and was essential for bPSC differentiation in organoid cultures. Most importantly, we identified, for the first time, interleukin 1 receptor antagonist (IL-1RA) as a key regulator of AR in basal stem cells. IL-1RA was one of the top genes upregulated by inflammation and inhibition of IL-1RA abrogated the enhanced AR nuclear accumulation and activity in organoids derived from inflamed bPSC. The mirroring effects of IL-1RA recombinant protein and IL-1α neutralizing antibody suggest that IL-1RA may function by antagonizing IL-1α inhibition of AR expression. Furthermore, we established a lineage tracing model to follow bPSC during inflammation and under castrate conditions. We found that inflammation induced bPSC proliferation and differentiation into luminal cells even under castrate conditions, indicating that AR activation driven by inflammation in bPSC is sufficient for their proliferation and differentiation under androgen-deprived conditions. However, proliferation of the differentiated bPSC in the luminal layer significantly diminished with castration, suggesting inflammation may not maintain AR activity in stromal cells, as stromal cells deprived of androgen after castration could no longer provide paracrine growth factors essential for luminal proliferation. Taken together, we have discovered novel mechanisms through which inflammation modulates AR signaling in bPSC and induces bPSC luminal differentiation that contributes to prostate hyperplasia.Item Multi-omic profiling of clear cell renal cell carcinoma identifies metabolic reprogramming associated with disease progression(Springer Nature, 2024) Hu, Junyi; Wang, Shao-Gang; Hou, Yaxin; Chen, Zhaohui; Liu, Lilong; Li, Ruizhi; Li, Nisha; Zhou, Lijie; Yang, Yu; Wang, Liping; Wang, Liang; Yang, Xiong; Lei, Yichen; Deng, Changqi; Li, Yang; Deng, Zhiyao; Ding, Yuhong; Kuang, Yingchun; Yao, Zhipeng; Xun, Yang; Li, Fan; Li, Heng; Hu, Jia; Liu, Zheng; Wang, Tao; Hao, Yi; Jiao, Xuanmao; Guan, Wei; Tao, Zhen; Ren, Shancheng; Chen, Ke; Pathology and Laboratory Medicine, School of MedicineClear cell renal cell carcinoma (ccRCC) is a complex disease with remarkable immune and metabolic heterogeneity. Here we perform genomic, transcriptomic, proteomic, metabolomic and spatial transcriptomic and metabolomic analyses on 100 patients with ccRCC from the Tongji Hospital RCC (TJ-RCC) cohort. Our analysis identifies four ccRCC subtypes including De-clear cell differentiated (DCCD)-ccRCC, a subtype with distinctive metabolic features. DCCD cancer cells are characterized by fewer lipid droplets, reduced metabolic activity, enhanced nutrient uptake capability and a high proliferation rate, leading to poor prognosis. Using single-cell and spatial trajectory analysis, we demonstrate that DCCD is a common mode of ccRCC progression. Even among stage I patients, DCCD is associated with worse outcomes and higher recurrence rate, suggesting that it cannot be cured by nephrectomy alone. Our study also suggests a treatment strategy based on subtype-specific immune cell infiltration that could guide the clinical management of ccRCC.Item The roles of prostate progenitor cells and survivin in inflammation-induced prostate epithelial hyperplasia(2016-09-06) Wang, Liang; Jerde, Travis; Safa, Ahmad; Srour, Edward F.; Zhang, Jian-ting; Lu, TaoProstate inflammation is a common health concern as an important risk factor for prostate cancer and Benign Prostatic Hyperplasia (BPH). Inflammation induces epithelial apoptosis and epithelial hyperplasia, suggesting that inflammation promotes the tissue repair and regeneration process. Progenitor cells are critical in maintaining epithelial homeostasis in adult tissues. However, the roles of prostate progenitor cells, especially during prostate inflammation, are understudied. I proposed that prostate epithelial progenitor cells (PEPCs) are involved in inflammation-induced epithelial hyperplasia, and are driven by regulation from inflammatory pathways. Here, we showed that sphere formation ability of prostate epithelial cells is increased by inflammation. We identified that a population of prostate progenitor cells, named prostate epithelial progenitor cells, were expanded by inflammation under the regulation of IL-1/insulin-like growth factor 1 (IGF-1) signaling pathway, a previously identified critical regulation pathway of inflammation-induced epithelial hyperplasia. The expansion of PEPCs also correlated with the intensity of inflammation. We then identified that survivin was upregulated in prostate epithelial cells by inflammation and was mainly co-localized with proliferation markers in prostate epithelial cells. This upregulation depended on IL-1/IGF-1 signaling. In vivo treatment with the survivin inhibitor LQZ-7F reduced both survivin expression and proliferation in prostate epithelial cells during inflammation. Using our label retaining strategy, we compared the survivin expression pattern in two prostate regeneration models. We discovered that different populations of progenitor cells may be involved in different regeneration processes. We identified that survivin was expressed in a specific population of reactivated cells that respond to the inflammatory environment and was independent of the known slow-cycling stem cells found in the prostate epithelium. In summary, I have identified that PEPCs are involved in epithelial hyperplasia and are dependent on survivin signaling. My work defines how survivin serves as a key regulator of epithelial hyperplasia in an inflammatory environment.