Jessica Wayt scite author profile

Microvilli are actin-based structures found on the apical aspect of many epithelial cells. In this review, we discuss different types of microvilli, as well as comparisons with actin-based sensory stereocilia and filopodia. Much is known about the actin-bundling proteins of these structures; we summarize recent studies that focus on the components of the microvillar membrane. We pay special attention to mechanisms of membrane microfilament attachment by the ezrin/radixin/moesin family and regulation of this protein family. We also discuss the NHERF family of scaffolding proteins that are found in microvilli and their role in microvilli regulation. Microvilli on cultured cells are not static structures, and their dynamics and those of their components are discussed. Finally, we mention diseases related to microvilli and outline questions that our current knowledge will allow the field to address in the near future.

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Cordon Bleu serves as a platform at the basal region of microvilli, where it regulates microvillar length through its WH2 domains

Wayt

Bretscher

2014

MBoC

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Interactome Analysis Reveals Ezrin Can Adopt Multiple Conformational States

Viswanatha

Wayt

Ohouo

et al. 2013

Journal of Biological Chemistry

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Background: Ezrin is a conformationally regulated microfilament-membrane linker restricted to the apical aspect of epithelial cells. Results: Quantitative mass spectrometry identified proteins that associate with different ezrin conformations; the interactors include novel apical microvilli-associated proteins, with classes perceiving ezrin's conformation differentially. Conclusion: Different proteins selectively associate with three distinct conformational states of ezrin. Significance: This study extends the conformational activation model of ezrin and identifies new interacting partners.

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Arf6 and Rab22 mediate T cell conjugate formation by regulating clathrin-independent endosomal membrane trafficking

Johnson

Wayt

Wilson

et al. 2017

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Endosomal trafficking can influence the composition of the plasma membrane and the ability of cells to polarize their membranes. Here, we examined whether trafficking through clathrin-independent endocytosis (CIE) affects the ability of T cells to form a cell-cell conjugate with antigen-presenting cells (APCs). We show that CIE occurs in both the Jurkat T cell line and primary human T cells. In Jurkat cells, the activities of two guanine nucleotide binding proteins, Arf6 and Rab22 (also known as Rab22a), influence CIE and conjugate formation. Expression of the constitutively active form of Arf6, Arf6Q67L, inhibits CIE and conjugate formation, and results in the accumulation of vacuoles containing lymphocyte function-associated antigen 1 (LFA-1) and CD4, molecules important for T cell interaction with the APC. Moreover, expression of the GTP-binding defective mutant of Rab22, Rab22S19N, inhibits CIE and conjugate formation, suggesting that Rab22 function is required for these activities. Furthermore, Jurkat cells expressing Rab22S19N were impaired in spreading onto coverslips coated with T cell receptor-activating antibodies. These observations support a role for CIE, Arf6 and Rab22 in conjugate formation between T cells and APCs.

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Membrane Dynamics Correlate with Formation of Signaling Clusters during Cell Spreading

Hui

Wang

Grooman

et al. 2012

Biophysical Journal

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The morphology and duration of contacts between cells and adhesive surfaces play a key role in several biological processes, such as cell migration, cell differentiation, and the immune response. The interaction of receptors on the cell membrane with ligands on the adhesive surface leads to triggering of signaling pathways, which allow cytoskeletal rearrangement, and large-scale deformation of the cell membrane, which allows the cell to spread over the substrate. Despite numerous studies of cell spreading, the nanometer-scale dynamics of the membrane during formation of contacts, spreading, and initiation of signaling are not well understood. Using interference reflection microscopy, we study the kinetics of cell spreading at the micron scale, as well as the topography and fluctuations of the membrane at the nanometer scale during spreading of Jurkat T cells on antibody-coated substrates. We observed two modes of spreading, which were characterized by dramatic differences in membrane dynamics and topography. Formation of signaling clusters was closely related to the movement and morphology of the membrane in contact with the activating surface. Our results suggest that cell membrane morphology may be a critical constraint on signaling at the cell-substrate interface.

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Myosin II isoforms promote internalization of spatially distinct clathrin-independent endocytosis cargoes through modulation of cortical tension downstream of ROCK2

Wayt

Cartagena‐Rivera

Dutta

et al. 2021

MBoC

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We utilize quantitative endocytic assays of endogenous clathrin-independent endocytosis (CIE) cargoes to determine that the Rho-associated kinase ROCK2, but not ROCK1, is required for CIE of major histocompatibility complex class I (MHCI) and CD59 through promotion of myosin II activity. We further show that myosin IIA promotes internalization of MHCI and myosin IIB drives CD59 uptake in both HeLa and polarized Caco2 cells.

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Jessica Wayt

Structure, Regulation, and Functional Diversity of Microvilli on the Apical Domain of Epithelial Cells

Cordon Bleu serves as a platform at the basal region of microvilli, where it regulates microvillar length through its WH2 domains

Interactome Analysis Reveals Ezrin Can Adopt Multiple Conformational States

Arf6 and Rab22 mediate T cell conjugate formation by regulating clathrin-independent endosomal membrane trafficking

Membrane Dynamics Correlate with Formation of Signaling Clusters during Cell Spreading

Myosin II isoforms promote internalization of spatially distinct clathrin-independent endocytosis cargoes through modulation of cortical tension downstream of ROCK2

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