Regulation of receptor signaling and membrane trafficking by beta1,6-branched n-glycans and caveolin-1/cholesterol membrane domain organization

Lajoie, Patrick

05 1900

Modification by glycosylation gives proteins a range of diverse functions reflecting their structural variability. N-glycans regulate many biological outcomes in mammalian cells under both normal and pathological conditions. They play a major role in various pathologies such as cancer and lysosomal storage diseases. Interplay between N-glycans and other regulators, such as membrane lipid domains, in the control of signaling pathways remains poorly understood. My thesis therefore focuses on how N-glycans and membrane lipid domains oppose and/or work together at different cellular levels to regulate various processes such as receptor signaling and diffusion, endocytosis and lysosomal organelle biogenesis. Mgat5 encodes for ß1,6-N-acetylglucosaminyltransferase V that produces N-glycans, the preferred ligand for galectins. In tumor cells, galectins bind glycosylated receptors at the cell surface forming a lattice, that restricts receptor endocytosis and enhances its residency at the plasma membrane. In the first part of my thesis, I report that Galectin/receptor crosslinking opposes receptor sequestration by oligomerized caveolin-1 (Cav1) domains overriding its negative regulation of epidermal growth factor receptor (EGFR) signaling, cell surface diffusion and tumor growth. These results identify Cav1 as a conditional tumor suppressor. I also demonstrate that Cav1 is a negative regulator of lipid raft-mediated endocytosis. Cav1 indirectly regulates the internalization of cholera toxin b subunit to the Golgi apparatus independently of caveolae formation. That identifies a new role for caveolin-1 outside caveolae in the regulation of raft-dependent endocytosis Finally, Mgat5 overexpression in pneumocytes is associated with the expression of a lysosomal organelle, the multilamellar body (MLB), via autophagy. MLB expression is also a characteristic of various lysosomal storage diseases. I demonstrate that cholesterol accumulation can override the need for Mgat5 overexpression in MLB formation indicating that they may form via multiple mechanisms. However, I also demonstrate that a contribution of the autophagic pathway is a common determinant of biogenesis of MLB of various lipid compositions. In conclusion, Mgat5-dependent protein glycosylation and Cav1/raft domains therefore both function as regulators of plasma membrane interactions, endocytosis and lysosomal organelle biogenesis. Understanding of this interplay is crucial for the understanding of the mechanisms involve in various pathologies such as cancer and lysosomal storage diseases.

caveolin-1

Magt5

glycosylation

galectin lattice

lipid rafts

endocytosis

multilamellar bodies

autophagy

cancer

cholesterol

Regulation of receptor signaling and membrane trafficking by beta1,6-branched n-glycans and caveolin-1/cholesterol membrane domain organization

Lajoie, Patrick

05 1900

Modification by glycosylation gives proteins a range of diverse functions reflecting their structural variability. N-glycans regulate many biological outcomes in mammalian cells under both normal and pathological conditions. They play a major role in various pathologies such as cancer and lysosomal storage diseases. Interplay between N-glycans and other regulators, such as membrane lipid domains, in the control of signaling pathways remains poorly understood. My thesis therefore focuses on how N-glycans and membrane lipid domains oppose and/or work together at different cellular levels to regulate various processes such as receptor signaling and diffusion, endocytosis and lysosomal organelle biogenesis. Mgat5 encodes for ß1,6-N-acetylglucosaminyltransferase V that produces N-glycans, the preferred ligand for galectins. In tumor cells, galectins bind glycosylated receptors at the cell surface forming a lattice, that restricts receptor endocytosis and enhances its residency at the plasma membrane. In the first part of my thesis, I report that Galectin/receptor crosslinking opposes receptor sequestration by oligomerized caveolin-1 (Cav1) domains overriding its negative regulation of epidermal growth factor receptor (EGFR) signaling, cell surface diffusion and tumor growth. These results identify Cav1 as a conditional tumor suppressor. I also demonstrate that Cav1 is a negative regulator of lipid raft-mediated endocytosis. Cav1 indirectly regulates the internalization of cholera toxin b subunit to the Golgi apparatus independently of caveolae formation. That identifies a new role for caveolin-1 outside caveolae in the regulation of raft-dependent endocytosis Finally, Mgat5 overexpression in pneumocytes is associated with the expression of a lysosomal organelle, the multilamellar body (MLB), via autophagy. MLB expression is also a characteristic of various lysosomal storage diseases. I demonstrate that cholesterol accumulation can override the need for Mgat5 overexpression in MLB formation indicating that they may form via multiple mechanisms. However, I also demonstrate that a contribution of the autophagic pathway is a common determinant of biogenesis of MLB of various lipid compositions. In conclusion, Mgat5-dependent protein glycosylation and Cav1/raft domains therefore both function as regulators of plasma membrane interactions, endocytosis and lysosomal organelle biogenesis. Understanding of this interplay is crucial for the understanding of the mechanisms involve in various pathologies such as cancer and lysosomal storage diseases.

caveolin-1

Magt5

glycosylation

galectin lattice

lipid rafts

endocytosis

multilamellar bodies

autophagy

cancer

cholesterol

Regulation of the signal transducer and activator of transcription-3 by the caveolae protein, caveolin-1

Mohan, REVA

10 November 2008

The signal transducer and activator of transcription-3 (Stat3) is a latent cytoplasmic protein that is activated through phosphorylation of tyrosine-705 by a number of receptor and non-receptor tyrosine kinases. This leads to Stat3 dimerization by reciprocal SH2-ptyr interactions, followed by translocation to the nucleus to initiate transcription of genes involved in cell growth, survival, and differentiation. Many of these signaling molecules known to activate Stat3 concentrate in specialized plasma membrane microdomains called caveolae, and are sequestered in an inactive state to the caveolin scaffolding domain (CSD) of the main caveolae resident protein, caveolin-1 (cav1). Since many of these signaling molecules are known, potent Stat3 stimulators, we set out to examine the effect of cav1 upon Stat3 activity. To this effect, cav1 was downregulated using a cholesterol chelator (methylcyclodextrin), or an antisense approach. Since we previously found that cell density can dramatically activate Stat3, all experiments were conducted at several densities. The results show that cav1 downregulation causes an increase in Stat3-tyr705 phosphorylation at all densities examined. We next examined the effect of cav1 upregulation upon Stat3 activity by transfecting an EGFP-cav1 construct. The results revealed that cav1 overexpression using this construct reduces Stat3 activity and induces apoptosis, which can be overcome by expression of a constitutively active form of Stat3. Finally, by expressing a Stat3 shRNA with an adenovirus vector, we demonstrated that Stat3 downregulation leads to an increase in cav1 levels. These results reveal the presence of a potent, negative regulatory relationship between cav1 and Stat3 phosphorylation. / Thesis (Master, Microbiology & Immunology) -- Queen's University, 2008-11-09 20:53:54.787

signal transduction

cell and molecular biology

cell adhesion

Stat3

caveolin 1

confluence

Caveolin-1 recruitment to the trailing edge of motile cells results in focal adhesion disassembly and nascent interaction with actin stress fibers

Beardsley, Andrew.

January 2006

Thesis (Ph. D.)--West Virginia University, 2006. / Title from document title page. Document formatted into pages; contains viii, 160 p. : ill. (some col.). Includes abstract. Includes bibliographical references.

Caveolin-1: A Potential Biomarker of Aggressive Triple-Negative Breast Cancer in African American Women

January 2015

abstract: In the U.S., breast cancer (BC) incidences among African American (AA) and CA (CA) women are similar, yet AA women have a significantly higher mortality rate. In addition, AA women often present with tumors at a younger age, with a higher tumor grade/stage and are more likely to be diagnosed with the highly aggressive triple-negative breast cancer (TNBC) subtype. Even within the TNBC subtype, AA women have a worse clinical outcome compared to CA. Although multiple socio-economic and lifestyle factors may contribute to these observed health disparities, it is essential that the underlying biological differences between CA and AA TNBC are identified. In this study, gene expression profiling was performed on archived FFPE samples, obtained from CA and AA women diagnosed with early stage TNBC. Initial analysis revealed a pattern of differential expression in the AA cohort compared to CA. Further molecular characterization results showed that the AA cohort segregated into 3-TNBC molecular subtypes; Basal-like (BL2), Immunomodulatory (IM) and Mesenchymal (M). Gene expression analyses resulted in 190 differentially expressed genes between the AA and CA cohorts. Pathway enrichment analysis demonstrated that differentially expressed genes were over-represented in cytoskeletal remodeling, cell adhesion, tight junctions, and immune response in the AA TNBC -cohort. Furthermore, genes in the Wnt/β-catenin pathway were over-expressed. These results were validated using RT-qPCR on an independent cohort of FFPE samples from AA and CA women with early stage TNBC, and identified Caveolin-1 (CAV1) as being significantly expressed in the AA-TNBC cohort. Furthermore, CAV1 was shown to be highly expressed in a cell line panel of TNBC, in particular, those of the mesenchymal and basal-like molecular subtype. Finally, silencing of CAV1 expression by siRNA resulted in a significant decrease in proliferation in each of the TNBC cell lines. These observations suggest that CAV1 expression may contribute to the more aggressive phenotype observed in AA women diagnosed with TNBC. / Dissertation/Thesis / Doctoral Dissertation Molecular and Cellular Biology 2015

Molecular biology

African American

Caucasian

Caveolin-1

Health Disparities

Race

Triple-Negative Breast Cancer

Regulation of receptor signaling and membrane trafficking by beta1,6-branched n-glycans and caveolin-1/cholesterol membrane domain organization

Lajoie, Patrick

05 1900

Modification by glycosylation gives proteins a range of diverse functions reflecting their structural variability. N-glycans regulate many biological outcomes in mammalian cells under both normal and pathological conditions. They play a major role in various pathologies such as cancer and lysosomal storage diseases. Interplay between N-glycans and other regulators, such as membrane lipid domains, in the control of signaling pathways remains poorly understood. My thesis therefore focuses on how N-glycans and membrane lipid domains oppose and/or work together at different cellular levels to regulate various processes such as receptor signaling and diffusion, endocytosis and lysosomal organelle biogenesis. Mgat5 encodes for ß1,6-N-acetylglucosaminyltransferase V that produces N-glycans, the preferred ligand for galectins. In tumor cells, galectins bind glycosylated receptors at the cell surface forming a lattice, that restricts receptor endocytosis and enhances its residency at the plasma membrane. In the first part of my thesis, I report that Galectin/receptor crosslinking opposes receptor sequestration by oligomerized caveolin-1 (Cav1) domains overriding its negative regulation of epidermal growth factor receptor (EGFR) signaling, cell surface diffusion and tumor growth. These results identify Cav1 as a conditional tumor suppressor. I also demonstrate that Cav1 is a negative regulator of lipid raft-mediated endocytosis. Cav1 indirectly regulates the internalization of cholera toxin b subunit to the Golgi apparatus independently of caveolae formation. That identifies a new role for caveolin-1 outside caveolae in the regulation of raft-dependent endocytosis Finally, Mgat5 overexpression in pneumocytes is associated with the expression of a lysosomal organelle, the multilamellar body (MLB), via autophagy. MLB expression is also a characteristic of various lysosomal storage diseases. I demonstrate that cholesterol accumulation can override the need for Mgat5 overexpression in MLB formation indicating that they may form via multiple mechanisms. However, I also demonstrate that a contribution of the autophagic pathway is a common determinant of biogenesis of MLB of various lipid compositions. In conclusion, Mgat5-dependent protein glycosylation and Cav1/raft domains therefore both function as regulators of plasma membrane interactions, endocytosis and lysosomal organelle biogenesis. Understanding of this interplay is crucial for the understanding of the mechanisms involve in various pathologies such as cancer and lysosomal storage diseases. / Medicine, Faculty of / Graduate

caveolin-1

Magt5

glycosylation

galectin lattice

lipid rafts

endocytosis

multilamellar bodies

autophagy

cancer

cholesterol

Strahleninduzierte Veränderungen in der Expression von Caveolin-1 in der Mundschleimhaut (Maus): Modulation durch Pentoxifyllin, Dermatansulfat oder Thalidomid

Walther, Liza

07 November 2018

Die strahleninduzierte orale Mukositis (OM) gilt als limitierender Faktor in der Therapie von Kopf-Hals-Tumoren (KHT). Jährlich erkranken an KHT weltweit zwischen 400.000 und 600.000 Menschen sowie eine Vielzahl an Hunden und Katzen. Die fraktionierte Radiotherapie wird allein oder in Kombination mit anderen Therapieformen zur Behandlung von KHT eingesetzt. Neben dem Tumorgewebe werden immer auch Normalgewebsanteile der Strahlung ausgesetzt. Dabei besteht ein gewisses, akzeptiertes Risiko für unerwünschte Wirkungen. Die fast bei allen Bestrahlungspatienten auftretende OM stellt die wichtigste frühe Nebenwirkung dar. Zahlreiche Untersuchungen zu Therapie- und Prophylaxemöglichkeiten blieben bisher ohne eindeutigen Konsens bezüglich Behandlung beziehungsweise Prävention der OM. Pentoxifyllin (Ptx), Dermatansulfat (Ds) und Thalidomid (Th) haben in verschiedenen präklinischen Studien eine verbessernde Wirkung auf die strahleninduzierte OM gezeigt. In der vorliegenden Arbeit soll die Caveolin-1 (Cav-1)-Expression und deren Modifizierung durch die drei oben genannten Wirkstoffe untersucht werden, um einen möglichen Zusammenhang zwischen Cav-1, OM und Mukoprotektivität herstellen zu können.

info:eu-repo/classification/ddc/636.089

ddc:636.089

Redox Regulation of Ischemic Preconditioning Is Mediated by the Differential Activation of Caveolins and Their Association With ENOS and GLUT-4

Koneru, Srikanth, Penumathsa, Suresh Varma, Thirunavukkarasu, Mahesh, Samuel, Samson Mathews, Zhan, Lijun, Han, Zhihua, Maulik, Gautam, Das, Dipak K., Maulik, Nilanjana

01 January 2007

Reactive oxygen species (ROS) generated during ischemia-reperfusion (I/R) enhance myocardial injury, but brief periods of myocardial ischemia followed by reperfusion [ischemic preconditioning (IP)] induce cardioprotection. Ischemia is reported to stimulate glucose uptake through the translocation of GLUT-4 from the intracellular vesicles to the sarcolemma. In the present study we demonstrated involvement of ROS in IP-mediated GLUT-4 translocation along with increased expression of caveolin (Cav)-3, phospho (p)-endothelial nitric oxide synthase (eNOS), p-Akt, and decreased expression of Cav-1. The rats were divided into the following groups: 1) control sham, 2) N-acetyl-L-cysteine (NAC, free radical scavenger) sham (NS), 3) I/R, 4) IP + I/R (IP), and 5) NAC + IP (IPN). IP was performed by four cycles of 4 min of ischemia and 4 min of reperfusion followed by 30 min of ischemia and 3, 24, 48 h of reperfusion, depending on the protocol. Increased mRNA expression of GLUT-4 and Cav-3 was observed after 3 h of reperfusion in the IP group compared with other groups. IP increased expression of GLUT-4, Cav-3, and p-AKT and p-eNOS compared with I/R. Coimmunoprecipitation demonstrated decreased association of Cav-1/eNOS in the IP group compared with the I/R group. Significant GLUT-4 and Cav-3 association was also observed in the IP group. This association was disrupted when NAC was used in conjunction with IP. It clearly documents a significant role of ROS signaling in Akt/eNOS/Cav-3-mediated GLUT-4 translocation and association in IP myocardium. In conclusion, we demonstrated a novel redox mechanism in IP-induced eNOS and GLUT-4 translocation and the role of caveolar paradox in making the heart euglycemic during the process of ischemia, leading to myocardial protection in a clinically relevant rat ischemic model.

Akt

Caveolin-1

Caveolin-3

endothelial nitric oxide synthase

glucose transporter 4

nitric oxide

redox signaling

The Na/K-ATPase/Caveolin-1 Interaction Regulates Cell Growth

Dong, Shuai

23 August 2011

No description available.

Biomedical Research

Pharmacology

Physiology

Na/K-ATPase

Caveolin-1

Cholesterol

Cell growth

Ouabain Regulates Caveolin-1 Vesicle Trafficking by a Src-Dependent Mechanism

Harris, Tanoya L.

12 June 2012

No description available.

Molecular Biology

Pharmacology

Physiology

ouabain

caveolae

caveolin-1

hormone

Src

trafficking