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263.
Kimberly A. Toops Li Xuan Tan Zhichun Jiang Roxana A. Radu Aparna Lakkaraju 《Molecular biology of the cell》2015,26(1):1-14
Autophagy is an essential mechanism for clearing damaged organelles and proteins within the cell. As with neurodegenerative diseases, dysfunctional autophagy could contribute to blinding diseases such as macular degeneration. However, precisely how inefficient autophagy promotes retinal damage is unclear. In this study, we investigate innate mechanisms that modulate autophagy in the retinal pigment epithelium (RPE), a key site of insult in macular degeneration. High-speed live imaging of polarized adult primary RPE cells and data from a mouse model of early-onset macular degeneration identify a mechanism by which lipofuscin bisretinoids, visual cycle metabolites that progressively accumulate in the RPE, disrupt autophagy. We demonstrate that bisretinoids trap cholesterol and bis(monoacylglycero)phosphate, an acid sphingomyelinase (ASMase) cofactor, within the RPE. ASMase activation increases cellular ceramide, which promotes tubulin acetylation on stabilized microtubules. Live-imaging data show that autophagosome traffic and autophagic flux are inhibited in RPE with acetylated microtubules. Drugs that remove excess cholesterol or inhibit ASMase reverse this cascade of events and restore autophagosome motility and autophagic flux in the RPE. Because accumulation of lipofuscin bisretinoids and abnormal cholesterol homeostasis are implicated in macular degeneration, our studies suggest that ASMase could be a potential therapeutic target to ensure the efficient autophagy that maintains RPE health. 相似文献
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265.
This paper presents a study of a nonlinear reaction–diffusion population model in fragmented environments. The model is set
on , with periodic heterogeneous coefficients obtained using stochastic processes. Using a criterion of species persistence based
on the notion of principal eigenvalue of an elliptic operator, we provided a precise numerical analysis of the interactions
between habitat fragmentation and species persistence. The obtained results clearly indicated that species persistence strongly
tends to decrease with habitat fragmentation. Moreover, comparing two stochastic models of landscape pattern generation, we
observed that in addition to local fragmentation, a more global effect of the position of the habitat patches also influenced
species persistence.
相似文献
266.
Irem Nasir Warda Fatih Anja Svensson Dennis Radu Sara Linse Celia Cabaleiro Lago Martin Lundqvist 《PloS one》2015,10(8)
The interactions of biological macromolecules with nanoparticles underlie a wide variety of current and future applications in the fields of biotechnology, medicine and bioremediation. The same interactions are also responsible for mediating potential biohazards of nanomaterials. Some applications require that proteins adsorb to the nanomaterial and that the protein resists or undergoes structural rearrangements. This article presents a screening method for detecting nanoparticle-protein partners and conformational changes on time scales ranging from milliseconds to days. Mobile fluorophores are used as reporters to study the interaction between proteins and nanoparticles in a high-throughput manner in multi-well format. Furthermore, the screening method may reveal changes in colloidal stability of nanomaterials depending on the physicochemical conditions. 相似文献
267.
Grosu M Stăvaru C Guţu D Radu DL 《Roumanian archives of microbiology and immunology》2007,66(3-4):57-61
The purpose of this study was to evaluate the therapeutic response to intra-hepatic and intra-portal allotransplant with pancreatic beta cells in double transgenic mice (dTg) with autoimmune diabetes. The results showed an improvement in metabolic and somatic parameters and an increase in survival rate. Histopathology analysis revealed the presence of transplanted islets and the absence of the inflammatory infiltrate 5 days after the procedure and an increase in insulinemia. In the absence of immunosuppressive drugs, rejection of the transplanted islet seems to appear after 10 weeks, being marked by an increase in blood glucose level. A re-transplantation was performed in one mouse of each group and the glycemia levels recorded after the second transplant were less successful. 相似文献
268.
Fettah Erdogan Tudor Bogdan Radu Anna Orlova Abdul Khawazak Qadree Elvin Dominic de Araujo Johan Israelian Peter Valent Satu M. Mustjoki Marco Herling Richard Moriggl Patrick Thomas Gunning 《Journal of cellular and molecular medicine》2022,26(7):2049
Through a comprehensive review and in silico analysis of reported data on STAT‐linked diseases, we analysed the communication pathways and interactome of the seven STATs in major cancer categories and proposed rational targeting approaches for therapeutic intervention to disrupt critical pathways and addictions to hyperactive JAK/STAT in neoplastic states. Although all STATs follow a similar molecular activation pathway, STAT1, STAT2, STAT4 and STAT6 exert specific biological profiles associated with a more restricted pattern of activation by cytokines. STAT3 and STAT5A as well as STAT5B have pleiotropic roles in the body and can act as critical oncogenes that promote many processes involved in cancer development. STAT1, STAT3 and STAT5 also possess tumour suppressive action in certain mutational and cancer type context. Here, we demonstrated member‐specific STAT activity in major cancer types. Through systems biology approaches, we found surprising roles for EGFR family members, sex steroid hormone receptor ESR1 interplay with oncogenic STAT function and proposed new drug targeting approaches of oncogenic STAT pathway addiction. 相似文献
269.
Radu Albulescu Cristiana Tanase Elena Codrici Daniela I. Popescu Sanda M. Cretoiu Laurentiu M. Popescu 《Journal of cellular and molecular medicine》2015,19(8):1783-1794
Telocytes (TCs) are interstitial cells that are present in numerous organs, including the heart interstitial space and cardiac stem cell niche. TCs are completely different from fibroblasts. TCs release extracellular vesicles that may interact with cardiac stem cells (CSCs) via paracrine effects. Data on the secretory profile of TCs and the bidirectional shuttle vesicular signalling mechanism between TCs and CSCs are scarce. We aimed to characterize and understand the in vitro effect of the TC secretome on CSC fate. Therefore, we studied the protein secretory profile using supernatants from mouse cultured cardiac TCs. We also performed a comparative secretome analysis using supernatants from rat cultured cardiac TCs, a pure CSC line and TCs‐CSCs in co‐culture using (i) high‐sensitivity on‐chip electrophoresis, (ii) surface‐enhanced laser desorption/ionization time‐of‐flight mass spectrometry and (iii) multiplex analysis by Luminex‐xMAP. We identified several highly expressed molecules in the mouse cardiac TC secretory profile: interleukin (IL)‐6, VEGF, macrophage inflammatory protein 1α (MIP‐1α), MIP‐2 and MCP‐1, which are also present in the proteome of rat cardiac TCs. In addition, rat cardiac TCs secrete a slightly greater number of cytokines, IL‐2, IL‐10, IL‐13 and some chemokines like, GRO‐KC. We found that VEGF, IL‐6 and some chemokines (all stimulated by IL‐6 signalling) are secreted by cardiac TCs and overexpressed in co‐cultures with CSCs. The expression levels of MIP‐2 and MIP‐1α increased twofold and fourfold, respectively, when TCs were co‐cultured with CSCs, while the expression of IL‐2 did not significantly differ between TCs and CSCs in mono culture and significantly decreased (twofold) in the co‐culture system. These data suggest that the TC secretome plays a modulatory role in stem cell proliferation and differentiation. 相似文献
270.
Minshall RD Sessa WC Stan RV Anderson RG Malik AB 《American journal of physiology. Lung cellular and molecular physiology》2003,285(6):L1179-L1183
Caveolae are the sites in the cell membrane responsible for concentrating an array of signaling molecules critical for cell function. Recent studies have begun to identify the functions of caveolin-1, the 22-kDa caveolar protein that oligomerizes and inserts into the cytoplasmic face of the plasma membrane. Caveolin-1 appears to regulate caveolar internalization by stabilizing caveolae at the plasma membrane rather than controlling the shape of the membrane invagination. Because caveolin-1 is a scaffolding protein, it has also been hypothesized to function as a "master regulator" of signaling molecules in caveolae. Deletion of the caveolin-1 gene in mice resulted in cardiac hypertrophy and lung fibrosis, indicating its importance in cardiac and lung development. In the endothelium, caveolin-1 regulates nitric oxide signaling by binding to and inhibiting endothelial nitric oxide synthase (eNOS). Increased cytosolic Ca2+ or activation of the kinase Akt leads to eNOS activation and its dissociation from caveolin-1. Caveolae have also been proposed as the vesicle carriers responsible for transcellular transport (transcytosis) in endothelial cells. Transcytosis, the primary means of albumin transport across continuous endothelia, occurs by fission of caveolae from the membrane. This event is regulated by tyrosine phosphorylation of caveolin-1 and dynamin. As Ca2+ influx channels and pumps are localized in caveolae, caveolin-1 is also an important determinant of Ca2+ signaling in endothelial cells. Many of these findings were presented in San Diego, CA, at the 2003 Experimental Biology symposium "Caveolin Regulation of Endothelial Function" and are reviewed in this summary. 相似文献