Your search keyword '"Wanling Zhu"' showing total 9 results

1. Enhancing retention and permeation of rapamycin for osteoarthritis therapy using a two-stage drug delivery system

Author

Guangyong Lin, Huirong Huang, Meng Sun, Zhinan He, Shengjie Li, Xindan Liang, Yuqi Yan, Chenyu Qiu, Shize Li, Xinyu Zhao, Wanling Zhu, Longfa Kou, and Ruijie Chen

Subjects

Two-stage nanoparticle, Osteoarthritis, Rapamycin, Autophagy, Chondrocyte, Medicine (General), R5-920, Biology (General), QH301-705.5

Abstract

Osteoarthritis (OA) remains a challenging degenerative joint disease, largely associated with chondrocyte apoptosis during its development. Preserving chondrocytes stands as a promising strategy for OA treatment. Rapamycin (RP) exhibits chondrocyte protection by fostering autophagy. Nevertheless, the swift clearance of intra-articular injections and the dense cartilage extracellular matrix (ECM) hinder RP from effectively reaching chondrocytes. Herein, we developed a ''two-stage'' drug delivery system (RP@PEG-PA@P-Lipo). This system comprises primary nanoparticles (P-Lipo), liposomes modified with a collagen II targeting peptide (WYRGRLC), and secondary nanoparticles (RP@PEG-PA), PEG-modified PAMAM encapsulating rapamycin (RP). RP@PEG-PA@P-Lipo demonstrates adherence to the cartilage surface with WYRGRLC, substantially prolonging retention within the joint cavity. Subsequently, released RP@PEG-PA can effectively penetrate the cartilage and deliver RP to chondrocytes through small size and charge-driven forces. In vitro and in vivo experiments corroborate its notable therapeutic effects on OA. This study holds promise in offering a novel approach for clinical drug delivery and OA treatment.

Published

2024

2. Isotope tracing reveals distinct substrate preference in murine melanoma subtypes with differing anti-tumor immunity

Author

Xinyi Zhang, Alexandra A. Halberstam, Wanling Zhu, Brooks P. Leitner, Durga Thakral, Marcus W. Bosenberg, and Rachel J. Perry

Subjects

Melanoma, Tumor metabolism, Tumor microenvironment, Glucose, Amino acid, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background Research about tumor “metabolic flexibility”—the ability of cells to toggle between preferred nutrients depending on the metabolic context—has largely focused on obesity-associated cancers. However, increasing evidence for a key role for nutrient competition in the tumor microenvironment, as well as for substrate regulation of immune function, suggests that substrate metabolism deserves reconsideration in immunogenic tumors that are not strongly associated with obesity. Methods We compare two murine models: immunologically cold YUMM1.7 and immunologically-hot YUMMER1.7. We utilize stable isotope and radioisotope tracer-based metabolic flux studies as well as gas and liquid chromatography-based metabolomics analyses to comprehensively probe substrate preference in YUMM1.7 and YUMMER1.7 cells, with a subset of studies on the impact of available metabolites across a panel of five additional melanoma cell lines. We analyze bulk RNA-seq data and identify increased expression of amino acid and glucose metabolism genes in YUMMER1.7. Finally, we analyze melanoma patient RNA-seq data to identify potential prognostic predictors rooted in metabolism. Results We demonstrate using stable isotope tracer-based metabolic flux studies as well as gas and liquid chromatography-based metabolomics that immunologically-hot melanoma utilizes more glutamine than immunologically-cold melanoma in vivo and in vitro. Analyses of human melanoma RNA-seq data demonstrate that glutamine transporter and other anaplerotic gene expression positively correlates with lymphocyte infiltration and function. Conclusions Here, we highlight the importance of understanding metabolism in non-obesity-associated cancers, such as melanoma. This work advances the understanding of the correlation between metabolism and immunogenicity in the tumor microenvironment and provides evidence supporting metabolic gene expression as potential prognostic factors of melanoma progression and may inform investigations of adjunctive metabolic therapy in melanoma. Trial registration Deidentified data from The Cancer Genome Atlas were analyzed.

Published

2022

3. Gene and protein expression and metabolic flux analysis reveals metabolic scaling in liver ex vivo and in vivo

Author

Ngozi D Akingbesote, Brooks P Leitner, Daniel G Jovin, Reina Desrouleaux, Dennis Owusu, Wanling Zhu, Zongyu Li, Michael N Pollak, and Rachel J Perry

Subjects

metabolic scaling, liver metabolism, metabolic flux, Medicine, Science, Biology (General), QH301-705.5

Abstract

Metabolic scaling, the inverse correlation of metabolic rates to body mass, has been appreciated for more than 80 years. Studies of metabolic scaling have largely been restricted to mathematical modeling of caloric intake and oxygen consumption, and mostly rely on computational modeling. The possibility that other metabolic processes scale with body size has not been comprehensively studied. To address this gap in knowledge, we employed a systems approach including transcriptomics, proteomics, and measurement of in vitro and in vivo metabolic fluxes. Gene expression in livers of five species spanning a 30,000-fold range in mass revealed differential expression according to body mass of genes related to cytosolic and mitochondrial metabolic processes, and to detoxication of oxidative damage. To determine whether flux through key metabolic pathways is ordered inversely to body size, we applied stable isotope tracer methodology to study multiple cellular compartments, tissues, and species. Comparing C57BL/6 J mice with Sprague-Dawley rats, we demonstrate that while ordering of metabolic fluxes is not observed in in vitro cell-autonomous settings, it is present in liver slices and in vivo. Together, these data reveal that metabolic scaling extends beyond oxygen consumption to other aspects of metabolism, and is regulated at the level of gene and protein expression, enzyme activity, and substrate supply.

Published

2023

4. A precision medicine approach to metabolic therapy for breast cancer in mice

Author

Ngozi D. Akingbesote, Aaron Norman, Wanling Zhu, Alexandra A. Halberstam, Xinyi Zhang, Julia Foldi, Maryam B. Lustberg, and Rachel J. Perry

Subjects

Biology (General), QH301-705.5

Abstract

Mice with breast cancer driven by mutations upstream of the PI3K/Akt insulin signaling pathway are found to be responsive to dapagliflozin, while those driven by mutations downstream of PI3K/Akt or in pathways with other driver mutations did not.

Published

2022

5. The relationship between mindfulness, anxiety and depression during the COVID-19 pandemic: A meta-analysis of correlational studies

Author

Fuming Xu, Wanling Zhu, Qian Chen, and Youmei Tang

Subjects

COVID-19, mindfulness, mental health, anxiety, depression, Psychology, BF1-990

Abstract

BackgroundThe emergence of the COVID-19 pandemic has created an environment in which numerous determinants of poor mental health are intensified. Lockdown, re-lockdown, and media coverage of the spread of the virus, have the potential to contribute to increased levels of anxiety and depression. Mindfulness may act as a buffer against COVID-19-related depressive and anxiety disorders.MethodsWe conducted a systematic review and meta-analysis by searching PubMed, PsycINFO, Web of Science, and Google Scholar for any study published between January 2020 and March 2022. In this study, Comprehensive Meta-Analysis Version 3.3 software was applied to evaluate the effect size by random effect model. In addition, the heterogeneity analysis was evaluated using indicators Q and I2 indicators. Three methods were used to test for publication bias: funnel plot, Classic Fail-safe N, and Egger’s linear regression. According to the features of the included articles, subgroup analysis was utilized for the moderator analysis of this study.ResultsThe analysis finally included 12 articles (16 samples, N = 10,940) and obtained 26 independent effect sizes. In accordance with the meta-analysis, in the random effect model, the correlation between mindfulness and anxiety was −0.330 (p

Published

2023

6. Tissue-specific reprogramming of glutamine metabolism maintains tolerance to sepsis.

Author

Brooks P Leitner, Won D Lee, Wanling Zhu, Xinyi Zhang, Rafael C Gaspar, Zongyu Li, Joshua D Rabinowitz, and Rachel J Perry

Subjects

Medicine, Science

Abstract

Reprogramming metabolism is of great therapeutic interest for reducing morbidity and mortality during sepsis-induced critical illness. Disappointing results from randomized controlled trials targeting glutamine and antioxidant metabolism in patients with sepsis have begged a deeper understanding of the tissue-specific metabolic response to sepsis. The current study sought to fill this gap. We analyzed skeletal muscle transcriptomics of critically ill patients, versus elective surgical controls, which revealed reduced expression of genes involved in mitochondrial metabolism and electron transport, with increases in glutathione cycling, glutamine, branched chain, and aromatic amino acid transport. We then performed untargeted metabolomics and 13C isotope tracing to analyze systemic and tissue specific metabolic phenotyping in a murine polymicrobial sepsis model. We found an increased number of correlations between the metabolomes of liver, kidney, and spleen, with loss of correlations between the heart and quadriceps and all other organs, pointing to a shared metabolic signature within vital abdominal organs, and unique metabolic signatures for muscles during sepsis. A lowered GSH:GSSG and elevated AMP:ATP ratio in the liver underlie the significant upregulation of isotopically labeled glutamine's contribution to TCA cycle anaplerosis and glutamine-derived glutathione biosynthesis; meanwhile, the skeletal muscle and spleen were the only organs where glutamine's contribution to the TCA cycle was significantly suppressed. These results highlight tissue-specific mitochondrial reprogramming to support liver energetic demands and antioxidant synthesis, rather than global mitochondrial dysfunction, as a metabolic consequence of sepsis.

Published

2023

7. The effect of emotion background on pathological internet users’ comments on online news: Evidence from online text analysis

Author

Wei Zhang, Wanling Zhu, Jia Nie, Frank Andrasik, and Xara Naomi Blom

Subjects

pathological internet use, online text analysis, internal emotional state, emotional valence, Psychology, BF1-990

Abstract

The increased use of Internet communication emphasizes the need to explore the characteristics of online comments, which help better understand their impact on individuals’ internal emotional states and how the emotional valence of online news impacts online commentaries among Pathological Internet Users (PIUs). Eighteen PIUs and 14 controls commented on online news of two types (positive and negative valence) under two separate elicited emotional states (positive and negative), with commentaries analyzed through TextMind. PIUs and Controls both used more positive words when exposed to positive versus negative news and more negative words when exposed to negative versus positive news regardless of elicited emotions. However, individuals with PIU used more positive words than controls. PIUs and Controls commented similarly under positive or negative emotion elicitation concerning casual, inclusive, and exclusive words. However, the use of discrepancy word varied due to group assignment and the emotion background. Controls used more discrepancy words when commenting on negative news while in a positive emotional state and commenting on positive news while in a negative emotional state, which does not hold for PIUs. The internal emotional state and emotional valence of online news affected the group differently, suggesting that though PIUs can get emotional catharsis on commenting activities, they lack the perceptual consistency of emotional background when conducting online activities and have lower cognitive complexity. This research demonstrates the utility of incorporating a new method for detecting individuals subject to PIU by applying text analysis to their online behavior.

Published

2022

8. Event-triggered H-infinity finite-time consensus control for nonlinear second-order multi-agent systems with disturbances

Author

Yiping Luo and Wanling Zhu

Subjects

Multi-agent systems, Finite-time consensus, Event-triggered control, H-infinity consensus, Disturbances, Mathematics, QA1-939

Abstract

Abstract The study considers the problem of finite-time event-triggered H-infinity consensus for second-order multi-agent systems (MASs) with intrinsic nonlinear dynamics and external bounded disturbances. Based on the designed triggering function, a distributed event-triggered control strategy is presented on the basis of the designed triggering function to ensure consensus in the system, which effectively reduces the data transmission. Then, sufficient conditions for the finite-time consensus with H-infinity performance level of the resulting event-triggered MAS are derived by utilizing the Lyapunov function and finite-time stability theory. Furthermore, Zeno behavior is proven to be excluded under the proposed event-triggered scheme. Finally, the validity of the proposed results is verified by numerical simulation.

Published

2021

9. High Uric Acid Activates the ROS-AMPK Pathway, Impairs CD68 Expression and Inhibits OxLDL-Induced Foam-Cell Formation in a Human Monocytic Cell Line, THP-1

Author

Chaohuan Luo, Xueke Lian, Liangli Hong, Jingfang Zou, Zhi Li, Yuzhang Zhu, Tianliang Huang, Yongneng Zhang, Yaqiu Hu, Huier Yuan, Tengfei Wen, Wanling Zhuang, Bozhi Cai, Xin Zhang, Ichiro Hisatome, Tetsuya Yamamoto, Jiexiong Huang, and Jidong Cheng

Subjects

High uric acid, Monocytes/macrophages, ROS-AMPK pathway, CD68, Foam cell formation, Physiology, QP1-981, Biochemistry, QD415-436

Abstract

Background/Aims: Hyperuricemia is part of the metabolic-syndrome cluster of abdominal obesity, impaired glucose tolerance, insulin resistance, dyslipidemia, and hypertension. Monocytes/macrophages are critical in the development of metabolic syndrome, including gout, obesity and atherosclerosis. However, how high uric acid (HUA) exposure affects monocyte/macrophage function remains unclear. In this study, we investigated the molecular mechanism of HUA exposure in monocytes/macrophages and its impact on oxidized low-density lipoprotein (oxLDL)-induced foam-cell formation in a human monocytic cell line, THP-1. Methods: We primed THP-1 cells with phorbol-12-myristate-13-acetate (PMA) for differentiation, then exposed cells to HUA and detected the production of reactive oxygen species (ROS) and analyzed the level of phospho-AMPKα. THP-1 cells were pre-incubated with Compound C, an AMPK inhibitor, or N-acetyl-L-cysteine (NAC), a ROS scavenger, or HUA before PMA, to assess CD68 expression and phospho-AMPKα level. PMA-primed THP-1 cells were pre-treated with oxLDL before Compound C and HUA treatment. Western blot analysis was used to examine the levels of phospho-AMPKα, CD68, ABCG1, ABCA1, cyclooxygenase-2 (COX-2) and NF-κB (p65). Flow cytometry was used to assess ROS production and CD68 expression in live cells. Oil-red O staining was used to observe oxLDL uptake in cells. Results: HUA treatment increased ROS production in PMA-primed THP-1 cells; NAC blocked HUA-induced oxidative stress. HUA treatment time-dependently increased phospho-AMPKα level in PMA-primed THP-1 cells. The HUA-induced oxidative stress increased phospho-AMPKα levels, which was blocked by NAC. HUA treatment impaired CD68 expression during cell differentiation by activating the AMPK pathway, which was reversed by Compound C treatment. Finally, HUA treatment inhibited oxLDL uptake in the formation of foam cells in THP-1 cells, which was blocked by Compound C treatment. HUA treatment significantly increased the expression of ABCG1 and reversed the oxLDL-reduced ABCG1 expression but did not affect the expression of ABCA1, NF-κB (p65) or COX-2. Conclusions: HUA exposure activated the ROS-AMPK pathway, impaired CD68 expression, and inhibited oxLDL-induced foam-cell formation in a human monocytic cell line, THP-1.

Published

2016