Your search keyword '"LAMININS"' showing total 8 results

1. PTPa is required for laminin-2-induced Fyn-Akt signaling to drive oligodendrocyte differentiation.

Author

Ly, Philip T. T., Stewart, Craig, and Pallen, Catherine J.

Subjects

*LAMININS, *PROTEIN-tyrosine kinases, *OLIGODENDROGLIA, *PHYSIOLOGY

Abstract

Extrinsic signals that regulate oligodendrocyte maturation and subsequent myelination are essential for central nervous system development and regeneration. Deficiency in the extracellular factor laminin-2 (Lm2, comprising the a2ß1×1 chains), as occurs in congenital muscular dystrophy, can lead to impaired oligodendroglial development and aberrant myelination, but many aspects of Lm2-regulated oligodendroglial signaling and differentiation remain undefined. We show that receptor-like protein tyrosine phosphatase a (PTPa, also known as PTPRA) is essential for myelin basic protein expression and cell spreading during Lm2-induced oligodendrocyte differentiation. PTPa complexes with the Lm2 receptors a6ß1 integrin and dystroglycan to transduce Fyn activation upon Lm2 engagement. In this way, PTPa mediates a subset of Lm2-induced signals required for differentiation, includeing mTOR-dependent Akt activation but not Erk1/2 activation. We identify N-myc downstream regulated gene-1 (NDRG1) as a PTPa-regulated molecule during oligodendrocyte differentiation, and distinguish Lm2 receptor-specific modes of Fyn-Akt-dependent and -independent NDRG1 phosphorylation. Altogether, this reveals an Lm2-regulated PTPa-Fyn-Akt signaling axis that is critical for key aspects of the gene expression and morphological changes that mark oligodendrocyte maturation. [ABSTRACT FROM AUTHOR]

Published

2018

2. A basal cell defect promotes budding of prostatic intraepithelial neoplasia.

Author

Mengdie Wang, Nagle, Raymond B., Knudsen, Beatrice S., Rogers, Gregory C., and Cress, Anne E.

Subjects

*PROSTATE cancer, *LAMININS, *INTEGRINS

Abstract

Basal cells in a simple secretory epithelium adhere to the extracellular matrix (ECM), providing contextual cues for ordered repopulation of the luminal cell layer. Early high-grade prostatic intraepithelial neoplasia (HG-PIN) tissue has enlarged nuclei and nucleoli, luminal layer expansion and genomic instability. Additional HG-PIN markers include loss of α6β4 integrin or its ligand laminin-332, and budding of tumor clusters into laminin-511-rich stroma. We modeled the invasive budding phenotype by reducing expression of α6β4 integrin in spheroids formed from two normal human stable isogenic prostate epithelial cell lines (RWPE-1 and PrEC 11220). These normal cells continuously spun in culture, forming multicellular spheroids containing an outer laminin-332 layer, basal cells (expressing α6β4 integrin, high-molecular-weight cytokeratin and p63, also known as TP63) and luminal cells that secrete PSA (also known as KLK3). Basal cells were optimally positioned relative to the laminin-332 layer as determined by spindle orientation. β4-integrindefective spheroids contained a discontinuous laminin-332 layer corresponding to regions of abnormal budding. This 3D model can be readily used to study mechanisms that disrupt laminin-332 continuity, for example, defects in the essential adhesion receptor (β4 integrin), laminin-332 or abnormal luminal expansion during HG-PIN progression. [ABSTRACT FROM AUTHOR]

Published

2017

3. Goodbye flat biology - time for the 3rd and the 4th dimensions.

Author

Bissell, Mina J.

Subjects

*BIOLOGICAL assay, *LAMININS, *CELL culture

Abstract

In this article, the author discusses their laboratories' development of three dimensional (3D) assays, which involved growing cells inside laminin-rich gels, study of the stages in the life of a mammary gland of mice or women and need to obtain the correct 3D architecture in cultures.

Published

2017

4. Endocytic trafficking of laminin is controlled by dystroglycan and is disrupted in cancers.

Author

Leonoudakis, Dmitri, Huang, Ge, Akhavan, Armin, Fata, Jimmie E., Singh, Manisha, Gray, Joe W., and Muschler, John L.

Subjects

*ENDOCYTOSIS, *LAMININS, *DYSTROGLYCAN, *CANCER treatment, *CELL membranes

Abstract

The dynamic interactions between cells and basement membranes serve as essential regulators of tissue architecture and function in metazoans, and perturbation of these interactions contributes to the progression of a wide range of human diseases, including cancers. Here, we reveal the pathway and mechanism for the endocytic trafficking of a prominent basement membrane protein, laminin-111 (referred to here as laminin), and their disruption in disease. Livecell imaging of epithelial cells revealed pronounced internalization of laminin into endocytic vesicles. Laminin internalization was receptor mediated and dynamin dependent, and laminin proceeded to the lysosome through the late endosome. Manipulation of laminin receptor expression revealed that the dominant regulator of laminin internalization is dystroglycan, a laminin receptor that is functionally perturbed in muscular dystrophies and in many cancers. Correspondingly, laminin internalization was found to be deficient in aggressive cancer cells displaying non-functional dystroglycan, and restoration of dystroglycan function strongly enhanced the endocytosis of laminin in both breast cancer and glioblastoma cells. These results establish previously unrecognized mechanisms for the modulation of cell-basement-membrane communication in normal cells and identify a profound disruption of endocytic laminin trafficking in aggressive cancer subtypes. [ABSTRACT FROM AUTHOR]

Published

2014

5. Phosphorylation of the E3 ubiquitin ligase RNF41 by the kinase Par-1b is required for epithelial cell polarity.

Author

Lewandowski, Katherine T. and Piwnica-Worms, Helen

Subjects

*UBIQUITIN ligases, *PHOSPHORYLATION, *EPITHELIAL cells, *HOMEOSTASIS, *SERINE/THREONINE kinases, *CANCER cells, *LAMININS, *EXTRACELLULAR matrix

Abstract

The establishment and maintenance of cell polarity is an essential property governing organismal homeostasis, and loss of polarity is a common feature of cancer cells. The ability of epithelial cells to establish apical-basal polarity depends on intracellular signals generated from polarity proteins, such as the Par-1 family of proteins, as well as extracellular signals generated through cell contacts with the extracellular matrix (ECM). The Par-1 family has a well-established role in regulating cell-cell contacts in the form of tight junctions by phosphorylating Par-3. In addition, Par-1 has been shown to impact on cell-ECM interactions by regulating laminin receptor localization and laminin deposition on the basal surface of epithelial cells. Laminins are major structural and signaling components of basement membrane (BM), a sheet of specialized ECM underlying epithelia. In this study, we identify RNF41, an E3 ubiquitin ligase, as a novel Par-1b (also known as MARK2) effector in the cell-ECM pathway. Par-1b binds to and phosphorylates RNF41 on serine 254. Phosphorylation of RNF41 by Par-1b is required for epithelial cells to localize laminin-111 receptors to their basolateral surfaces and to properly anchor to laminin-111. In addition, phosphorylation of RNF41 is required for epithelial cells to establish apical-basal polarity. Our data suggests that phosphorylation of RNF41 by Par-1b regulates basolateral membrane targeting of laminin-111 receptors, thereby facilitating cell anchorage to laminin- 111 and ultimately forming the cell-ECM contacts required for epithelial cells to establish apical-basal cell polarity. [ABSTRACT FROM AUTHOR]

Published

2014

6. Schwann cell myelination requires integration of laminin activities.

Author

McKee, Karen K., Dong-Hua Yang, Patel, Rajesh, Zu-Lin Chen, Strickland, Sidney, Takagi, Junichi, Sekiguchi, Kiyotoshi, and Yurchenco, Peter D.

Subjects

*SCHWANN cells, *BASAL lamina, *LAMININS, *CELL proliferation, *CELL adhesion, *MYELINATION

Abstract

Laminins promote early stages of peripheral nerve myelination by assembling basement membranes (BMs) on Schwann cell surfaces, leading to activation of b1 integrins and other receptors. The BM composition, structural bonds and ligands needed to mediate this process, however, are not well understood. Mice hypomorphic for laminin c1-subunit expression that assembled endoneurial BMs with reduced component density exhibited an axonal sorting defect with amyelination but normal Schwann cell proliferation, the latter unlike the null. To identify the basis for this, and to dissect participating laminin interactions, LAMC1 gene-inactivated dorsal root ganglia were treated with recombinant laminin-211 and -111 lacking different architecture-forming and receptor-binding activities, to induce myelination. Myelin-wrapping of axons by Schwann cells was found to require higher laminin concentrations than either proliferation or axonal ensheathment. Laminins that were unable to polymerize through deletions that removed critical N-terminal (LN) domains, or that lacked cell-adhesive globular (LG) domains, caused reduced BMs and almost no myelination. Laminins engineered to bind weakly to a6b1 and/or a7b1 integrins through their LG domains, even though they could effectively assemble BMs, decreased myelination. Proliferation depended upon both integrin binding to LG domains and polymerization. Collectively these findings reveal that laminins integrate scaffold-forming and cell-adhesion activities to assemble an endoneurial BM, with myelination and proliferation requiring additional a6b1/a7b1-laminin LG domain interactions, and that a high BM ligand/structural density is needed for efficient myelination. [ABSTRACT FROM AUTHOR]

Published

2012

7. Regulation of hemidesmosome dynamics and cell signaling by integrin α6β4.

Author

te Molder, Lisa, de Pereda, Jose M., and Sonnenberg, Arnoud

Subjects

*CELL communication, *EXTRACELLULAR matrix, *CELLULAR signal transduction, *LAMININS, *BASAL lamina, *CELL adhesion, *INTEGRINS

Abstract

Hemidesmosomes (HDs) are specialized multiprotein complexes that connect the keratin cytoskeleton of epithelial cells to the extracellular matrix (ECM). In the skin, these complexes provide stable adhesion of basal keratinocytes to the underlying basement membrane. Integrin a6ß4 is a receptor for laminins and plays a vital role in mediating cell adhesion by initiating the assembly of HDs. In addition, a6ß4 has been implicated in signal transduction events that regulate diverse cellular processes, including proliferation and survival. In this Review, we detail the role of a6ß4 in HD assembly and beyond, and we discuss the molecular mechanisms that regulate its function. [ABSTRACT FROM AUTHOR]

Published

2021

8. Laminin-511 and α6 integrins regulate the expression of CXCR4 to promote endothelial morphogenesis.

Author

Hao Xu, Pumiglia, Kevin, and LaFlamme, Susan E.

Subjects

*CXCR4 receptors, *MORPHOGENESIS, *EXTRACELLULAR matrix, *CELL anatomy, *INTEGRINS, *LAMININS

Abstract

During angiogenesis, endothelial cells engage components of the extracellular matrix through integrin-mediated adhesion. Endothelial expression of laminin-411 and laminin-511 is known to promote vessel stability. However, little is known about the contribution of these laminins to endothelial morphogenesis. We used two organotypic cell culture angiogenesis assays, in conjunction with RNAi approaches, to demonstrate that depletion of either the α4 chain of laminin-411 (LAMA4) or the α5 chain of laminin-511 (LAMA5) from endothelial cells inhibits sprouting and tube formation. Depletion of α6 (ITGA6) integrins resulted in similar phenotypes. Gene expression analysis indicated that loss of either laminin-511 or α6 integrins inhibited the expression of CXCR4, a gene previously associated with angiogenic endothelial cells. Pharmacological or RNAi-dependent inhibition of CXCR4 suppressed endothelial sprouting and morphogenesis. Importantly, expression of recombinant CXCR4 rescued endothelial morphogenesis when α6 integrin expression was inhibited. Additionally, the depletion of α6 integrins from established tubes resulted in the loss of tube integrity and laminin-511. Taken together, our results indicate that α6 integrins and laminin-511 can promote endothelial morphogenesis by regulating the expression of CXCR4 and suggest that the α6-dependent deposition of laminin-511 protects the integrity of established endothelial tubes. [ABSTRACT FROM AUTHOR]

Published

2020