Your search keyword '"Zent, Roy"' showing total 14 results

1. Differential expression of collagen- and laminin-binding integrins mediates ureteric bud and inner medullary collecting duct cell tubulogenesis.

Author

Chen D, Roberts R, Pohl M, Nigam S, Kreidberg J, Wang Z, Heino J, Ivaska J, Coffa S, Harris RC, Pozzi A, and Zent R

Subjects

Animals, Cell Line, Transformed, Cell Movement physiology, Gene Expression Regulation, Developmental, Humans, Integrin alpha1beta1 metabolism, Integrin alpha2beta1 metabolism, Integrin alpha3beta1 genetics, Integrin alpha3beta1 metabolism, Integrin alpha6beta1 genetics, Integrin alpha6beta1 metabolism, Integrin alpha6beta4 genetics, Integrin alpha6beta4 metabolism, Kidney Medulla cytology, Kidney Medulla embryology, Kidney Medulla physiology, Kidney Tubules, Collecting cytology, Kidney Tubules, Collecting embryology, Kidney Tubules, Collecting physiology, Mice, Mice, Mutant Strains, Collagen metabolism, Integrin alpha1beta1 genetics, Integrin alpha2beta1 genetics, Laminin metabolism, Ureter embryology, Ureter physiology

Abstract

Inner medullary collecting ducts (IMCD) are terminally differentiated structures derived from the ureteric bud (UB). UB development is mediated by changes in the temporal and spatial expression of integrins and their respective ligands. We demonstrate both in vivo and in vitro that the UB expresses predominantly laminin receptors (alpha3beta1-, alpha6beta1-, and alpha6beta(4-integrins), whereas the IMCD expresses both collagen (alpha1beta1- and alpha2beta1-integrins) and laminin receptors. Cells derived from the IMCD, but not the UB, undergo tubulogenesis in collagen-I (CI) gels in an alpha1beta1- and alpha2beta1-dependent manner. UB cells transfected with the alpha2-integrin subunit undergo tubulogenesis in CI, suggesting that collagen receptors are required for branching morphogenesis in CI. In contrast, both UB and IMCD cells undergo tubulogenesis in CI/Matrigel gels. UB cells primarily utilize alpha3beta1- and alpha6-integrins, whereas IMCD cells mainly employ alpha1beta1 for this process. These results demonstrate a switch in integrin expression from primarily laminin receptors in the early UB to both collagen and laminin receptors in the mature IMCD, which has functional consequences for branching morphogenesis in three-dimensional cell culture models. This suggests that temporal and spatial changes in integrin expression could help organize the pattern of branching morphogenesis of the developing collecting system in vivo.

Published

2004

2. Integrin-Linked Kinase in Muscle Is Necessary for the Development of Insulin Resistance in Diet-Induced Obese Mice.

Author

Li Kang, Mokshagundam, Shilpa, Reuter, Bradley, Lark, Daniel S., Sneddon, Claire C., Hennayake, Chandani, Williams, Ashley S., Bracy, Deanna P., James, Freyja D., Pozzi, Ambra, Zent, Roy, Wasserman, David H., and Kang, Li

Subjects

INTEGRINS, INSULIN resistance, COLLAGEN, INTEGRIN-linked kinase, PHOSPHORYLATION, TREATMENT of diabetes, GLUCOSE metabolism, ANIMAL experimentation, ANIMALS, CELLULAR signal transduction, DIET, EXTRACELLULAR space, INSULIN, MICE, OBESITY, RESEARCH funding, TRANSFERASES, SKELETAL muscle, GLUCOSE clamp technique

Abstract

Diet-induced muscle insulin resistance is associated with expansion of extracellular matrix (ECM) components, such as collagens, and the expression of collagen-binding integrin, α2β1. Integrins transduce signals from ECM via their cytoplasmic domains, which bind to intracellular integrin-binding proteins. The integrin-linked kinase (ILK)-PINCH-parvin (IPP) complex interacts with the cytoplasmic domain of β-integrin subunits and is critical for integrin signaling. In this study we defined the role of ILK, a key component of the IPP complex, in diet-induced muscle insulin resistance. Wild-type (ILK(lox/lox)) and muscle-specific ILK-deficient (ILK(lox/lox)HSAcre) mice were fed chow or a high-fat (HF) diet for 16 weeks. Body weight was not different between ILK(lox/lox) and ILK(lox/lox)HSAcre mice. However, HF-fed ILK(lox/lox)HSAcre mice had improved muscle insulin sensitivity relative to HF-fed ILK(lox/lox) mice, as shown by increased rates of glucose infusion, glucose disappearance, and muscle glucose uptake during a hyperinsulinemic-euglycemic clamp. Improved muscle insulin action in the HF-fed ILK(lox/lox)HSAcre mice was associated with increased insulin-stimulated phosphorylation of Akt and increased muscle capillarization. These results suggest that ILK expression in muscle is a critical component of diet-induced insulin resistance, which possibly acts by impairing insulin signaling and insulin perfusion through capillaries. [ABSTRACT FROM AUTHOR]

Published

2016

3. The focal adhesion protein PINCH-1 associates with EPLIN at integrin adhesion sites.

Author

Karakose, Esra, Geiger, Tamar, Flynn, Kevin, Lorenz-Baath, Katrin, Zent, Roy, Mann, Matthias, and Fussier, Reinhard

Subjects

FOCAL adhesion kinase, INTEGRIN-linked kinase, CELL adhesion, FIBRONECTINS, COLLAGEN, CELL migration

Abstract

PINCH-1 is a LIM-only domain protein that forms a ternary complex with integrin-linked kinase (ILK) and parvin (to form the IPP complex) downstream of integrins. Here, we demonstrate that PINCH-1 (also known as Limsl) gene ablation in the epidermis of mice caused epidermal detachment from the basement membrane, epidermal hyperthickening and progressive hair loss. PINCH-1-deficient keratinocytes also displayed profound adhesion, spreading and migration defects in vitro that were substantially more severe than those of ILK-deficient keratinocytes indicating that PINCH-1 also exerts functions in an ILK-independent manner. By isolating the PINCH-1 interactome, the LIM-domain-containing and actin-binding protein epithelial protein lost in neoplasm (EPLIN, also known as LIMA1) was identified as a new PINCH-1-associated protein. EPLIN localized, in a PINCH-1-dependent manner, to integrin adhesion sites of keratinocytes in vivo and in vitro and its depletion severely attenuated keratinocyte spreading and migration on collagen and fibronectin without affecting PINCH-1 levels in focal adhesions. Given that the low PINCH-1 levels in ILK-deficient keratinocytes were sufficient to recruit EPLIN to integrin adhesions, our findings suggest that PINCH-1 regulates integrin-mediated adhesion of keratinocytes through the interactions with ILK as well as EPLIN. [ABSTRACT FROM AUTHOR]

Published

2015

4. Integrins in renal development.

Author

Mathew, Sijo, Chen, Xiwu, Pozzi, Ambra, and Zent, Roy

Subjects

CELL receptors, COLLAGEN, EXTRACELLULAR space, KIDNEY glomerulus, KIDNEYS, BASAL lamina, MORPHOGENESIS

Abstract

The kidney develops from direct interactions between the ureteric bud and the metanephric mesenchyme. The ureteric bud gives rise to the collecting system and the metanephric mesenchyme to the nephrons. The complex process of renal development which occurs between these embryologically distinct structures is mediated by numerous factors, including the communication of cells with their surrounding extracellular matrix. Integrins are the principal cellular receptors for extracellular matrix proteins, and they play a role in organ and tissue development. In this review we focus on how integrins regulate renal development. [ABSTRACT FROM AUTHOR]

Published

2012

5. α[sub v]β[sub 3] and α[sub v]β[sub 5] Integrins Bind Both the Proximal RGD Site and Non-RGD Motifs within Noncollagenous (NC1) Domain of the α3 Chain of Type IV Collagen.

Author

Pedchenko, Vadim, Zent, Roy, and Hudson, Billy G.

Subjects

*INTEGRINS, *COLLAGEN, *NEOVASCULARIZATION, *PEPTIDES, *CELL adhesion, *CONFORMATIONAL analysis

Abstract

The NC1 domains of human type IV collagen, in particular α3NC1, are inhibitors of angiogenesis and tumor growth (Petitclerc, E., Boutaud, A., Prestayko, A., Xu, J., Sado, Y., Ninomiya, Y., Sarras, M. P., Jr., Hudson, B. G., and Brooks, P. C. (2000) J. Biol. Chem. 275, 8051-8061). The recombinant α3NC1 domain contained a RGD site as part of a short collagenous sequence at the N terminus, designated herein as RGD-α3NC1. Others, using synthetic peptides, have concluded that this RGD site is nonfunctional in cell adhesion, and therefore, the antiangiogenic activity is attributed exclusively to α[sub v]β[sub 3] integrin interactions with non-RGD motifs of the RGDα[sub 3]NC1 domain (Maeshima, Y., Colorado, P. C., and Kalluri, R. (2000) J. Biol. Chem. 275, 23745-23750). This nonfunctionality is surprising given that RGD is a binding site for α[sub v]β[sub 3] integrin in several proteins. In the present study, we used the α3NC1 domain with or without the RGD site, expressed in HEK 293 cells for native conformation, as an alternative approach to synthetic peptides to assess the functionality of the RGD site and non-RGD motifs. Our results demonstrate a predominant role of the RGD site for endothelial adhesion and for binding of α[sub v]β[sub 3] and α[sub v]β[sub 5] integrins. Moreover, we demonstrate that the two non-RGD peptides, previously identified as the α[sub v]β[sub 3] integrin-binding sites of the α[sub 3]NC1 domain, are 10-fold less potent in competing for integrin binding than the native protein, indicating the importance of additional structural and/or conformational features of the α3NC1 domain for integrin binding. Therefore, the RGD site, in addition to non-RGD motifs, may contribute to the mechanisms of endothelial cell adhesion in the human vasculature and the antiangiogenic activity of the RGD-α3NC1 domain. [ABSTRACT FROM AUTHOR]

Published

2004

6. ROS stimulate reogranization of mesangial cell-collagen gels by tyrosine kinase signaling.

Author

Zent, Roy and Ailenberg, Menachem

Subjects

*REACTIVE oxygen species, *COLLAGEN, *PROTEIN-tyrosine kinases

Abstract

Presents information on a study which investigated the effects of reactive oxygen species (ROS) on cell-extracellular matrix interactions utilizing the floating three-dimensional collagen gel assay. Methodology; Results and discussion.

Published

1999

7. Integrin α1β1 Controls Reactive Oxygen Species Synthesis by Negatively Regulating Epidermal Growth Factor Receptor-Mediated Rac Activation.

Author

Xiwu Chen, Abair, Tristin D., Ibanez, Maria R., Yan Su, Frey, Mark R., Dise, Rebecca S., Polk, D. Brent, Singh, Amar B., Harris, Raymond C., Zent, Roy, and Pozzi, Ambra

Subjects

REACTIVE oxygen species, COLLAGEN, FIBROSIS, LIGANDS (Biochemistry), INTEGRINS

Abstract

Integrins control many cell functions, including generation of reactive oxygen species (ROS) and regulation of collagen synthesis. Mesangial cells, found in the glomerulus of the kidney, are able to produce large amounts of ROS via the NADPH oxidase. We previously demonstrated that integrin α1-null mice develop worse fibrosis than wild-type mice following glomerular injury and this is due, in part, to excessive ROS production by α1-null mesangial cells. In the present studies, we describe the mechanism whereby integrin α1-null mesangial cells produce excessive ROS. Integrin α1-null mesangial cells have constitutively increased basal levels of activated Rac1, which result in its increased translocation to the cell membrane, excessive ROS production, and consequent collagen IV deposition. Basal Rac1 activation is a direct consequence of ligand-independent increased epidermal growth factor receptor (EGFR) phosphorylation in α1-null mesangial cells. Thus, our study demonstrates that integrin α1β1-EGFR cross talk is a key step in negatively regulating Rac1 activation, ROS production, and excessive collagen synthesis, which is a hallmark of diseases characterized by irreversible fibrosis. [ABSTRACT FROM AUTHOR]

Published

2007

8. Small proline‐rich repeat 3 is a novel coordinator of PDGFRβ and integrin β1 crosstalk to augment proliferation and matrix synthesis by cardiac fibroblasts.

Author

Saraswati, Sarika, Lietman, Caressa D., Li, Bin, Mathew, Sijo, Zent, Roy, and Young, Pampee P.

Abstract

Nearly 6 million Americans suffer from heart failure. Increased fibrosis contributes to functional decline of the heart that leads to heart failure. Previously, we identified a mechanosensitive protein, small proline‐rich repeat 3 (SPRR3), in vascular smooth muscle cells of atheromas. In this study, we demonstrate SPRR3 expression in cardiac fibroblasts which is induced in activated fibroblasts following pressure‐induced heart failure. Sprr3 deletion in mice showed preserved cardiac function and reduced interstitial fibrosis in vivo and reduced fibroblast proliferation and collagen expression in vitro. SPRR3 loss resulted in reduced activation of Akt, FAK, ERK, and p38 signaling pathways, which are coordinately regulated by integrins and growth factors. SPRR3 deletion did not impede integrin‐associated functions including cell adhesion, migration, or contraction. SPRR3 loss resulted in reduced activation of PDGFRβ in fibroblasts. This was not due to the reduced PDGFRβ expression levels or decreased binding of the PDGF ligand to PDGFRβ. SPRR3 facilitated the association of integrin β1 with PDGFRβ and subsequently fibroblast proliferation, suggesting a role in PDGFRβ‐Integrin synergy. We postulate that SPRR3 may function as a conduit for the coordinated activation of PDGFRβ by integrin β1, leading to augmentation of fibroblast proliferation and matrix synthesis downstream of biomechanical and growth factor signals. [ABSTRACT FROM AUTHOR]

Published

2020

9. The Function of SPARC in Tumor Cell Biology: SPARC as a Modulator of Cell–Extracellular Matrix Interaction

Author

Brekken, Rolf A., Bradshaw, Amy D., Zent, Roy, editor, and Pozzi, Ambra, editor

Published

2010

10. Basement Membrane Collagens and Cancer

Author

Pedchenko, Vadim, Pozzi, Ambra, Zent, Roy, editor, and Pozzi, Ambra, editor

Published

2010

11. The Extracellular Matrix: An Overview

Author

Miner, Jeffrey H., Zent, Roy, editor, and Pozzi, Ambra, editor

Published

2010

12. Enhancing Integrin α1 Inserted (I) Domain Affinity to Ligand Potentiates Integrin α1β1-mediated Down-regulation of Collagen Synthesis.

Author

Shi, Mingjian, Pedchenko, Vadim, Greer, Briana H., Van Horn, Wade D., Santoro, Samuel A., Sanders, Charles R., Hudson, Billy G., Eichman, Brandt F., Zent, Roy, and Pozzi, Ambra

Subjects

*COLLAGEN, *LIGAND binding (Biochemistry), *EXTRACELLULAR matrix proteins, *CONNECTIVE tissues, *SPECTRUM analysis

Abstract

Integrin α1β1 binding to collagen IV, which is mediated by the α1-inserted (I) domain, down-regulates collagen synthesis. When unligated, a salt bridge between Arg287 and Glu317 is thought to keep this domain in a low affinity conformation. Ligand binding opens the salt bridge leading to a high-affinity conformation. How modulating integrin α1β1 affinity alters collagen homeostasis is unknown. To address this question, we utilized a thermolysin-derived product of the α1α2α1 network of collagen IV (α1α2α1(IV) truncated protomer) that selectively binds integrin α1β1. We show that an E317A substitution enhanced binding to the truncated protomer, consistent with a previous finding that this substitution eliminates the salt bridge. Surprisingly, we show that an R287A substitution did not alter binding, whereas R287E/E317R substitutions enhanced binding to the truncated protomer. NMR spectroscopy and molecular modeling suggested that eliminating the Glu317 negative charge is sufficient to induce a conformational change toward the open state. Thus, the role played by Glu317 is largely independent of the salt bridge. We further show that cells expressing E317A or R287E/ E317R substitutions have enhanced down-regulation of collagen IV synthesis, which is mediated by the ERK/MAPK pathway. In conclusion, we have demonstrated that modulating the affinity of the extracellular α1 I domain to collagen IV enhances outside-in signaling by potentiating ERK activation and enhancing the down-regulation of collagen synthesis [ABSTRACT FROM AUTHOR]

Published

2012

13. Goodpasture Antigen-binding Protein (GPBP) Directs Myofibril Formation.

Author

Revert-Ros, Francisco, López-Pascual, Ernesto, Granero-Moltó, Froilán, Macías, Jesús, Breyer, Richard, Zent, Roy, Hudson, Billy G., Saadeddin, Anas, Revert, Fernando, Blasco, Raül, Navarro, Carmen, Burks, Deborah, and Saus, Juan

Subjects

*ANTIGENS, *COLLAGEN, *CYTOPLASM, *MYOSIN, *CONNECTIVE tissues

Abstract

Goodpasture antigen-binding protein-1 (GPBP-1) is an exportable non-conventional Ser/Thr kinase that regulates glomerular basement membrane collagen organization. Here we provide evidence that GPBP-1 accumulates in the cytoplasm of differentiating mouse myoblasts prior to myosin synthesis. Myoblasts deficient in GPBP-1 display defective myofibril formation, whereas myofibrils assemble with enhanced efficiency in those overexpressing GPBP-1. We also show that GPBP-1 targets the previously unidentified GIP130 (GPBP-interacting protein of 130 kDa), which binds to myosin and promotes its myofibrillar assembly. This report reveals that GPBP-1 directs myofibril formation, an observation that expands its reported role in supramolecular organization of structural proteins to the intracellular compartment. [ABSTRACT FROM AUTHOR]

Published

2011

14. Cross-talk between integrins α1β1 and α2β1 in renal epithelial cells

Author

Abair, Tristin D., Sundaramoorthy, Munirathinam, Chen, Dong, Heino, Jyrki, Ivaska, Johanna, Hudson, Billy G., Sanders, Charles R., Pozzi, Ambra, and Zent, Roy

Subjects

*INTEGRINS, *KIDNEY tubules, *EPITHELIAL cells, *CARRIER proteins, *LABORATORY mice, *COLLAGEN

Abstract

Abstract: The collagen-binding integrins α1β1 and α2β1 have profoundly different functions, yet they are often co-expressed in epithelial cells. When both integrins are expressed in the same cell, it has been suggested that α1β1 negatively regulates integrin α2β1-dependent functions. In this study we utilized murine ureteric bud (UB) epithelial cells, which express no functionally detectable levels of endogenous integrins α1β1 and α2β1, to determine the mechanism whereby this regulation occurs. We demonstrate that UB cells expressing integrin α2β1, but not α1β1 adhere, migrate and proliferate on collagen I as well as form cellular cords in 3D collagen I gels. Substitution of the transmembrane domain of the integrin α2 subunit with that of α1 results in decreased cell adhesion, migration and cord formation. In contrast, substitution of the integrin α2 cytoplasmic tail with that of α1, decreases cell migration and cord formation, but increases proliferation. When integrin α1 and α2 subunits are co-expressed in UB cells, the α1 subunit negatively regulates integrin α2β1-dependent cord formation, adhesion and migration and this inhibition requires expression of both α1 and α2 tails. Thus, we provide evidence that the transmembrane and cytoplasmic domains of the α2 integrin subunit, as well as the α1 integrin subunit, regulate integrin α2β1 cell function. [Copyright &y& Elsevier]

Published

2008