Zyxin is important for the stability and function of podocytes, especially during mechanical stretch.

Podocyte detachment due to mechanical stress is a common issue in hypertension-induced kidney disease. This study highlights the role of zyxin for podocyte stability and function. We have found that zyxin is significantly up-regulated in podocytes after mechanical stretch and relocalizes from focal adhesions to actin filaments. In zyxin knockout podocytes, we found that the loss of zyxin reduced the expression of vinculin and VASP as well as the expression of matrix proteins, such as fibronectin. This suggests that zyxin is a central player in the translation of mechanical forces in podocytes. In vivo, zyxin is highly up-regulated in patients suffering from diabetic nephropathy and in hypertensive DOCA-salt treated mice. Furthermore, zyxin loss in mice resulted in proteinuria and effacement of podocyte foot processes that was measured by super resolution microscopy. This highlights the essential role of zyxin for podocyte maintenance in vitro and in vivo, especially under mechanical stretch.

Leveraging biotin-based proximity labeling to identify cellular factors governing early alphaherpesvirus infection.

Neurotropic alphaherpesviruses, including herpes simplex virus type 1 and pseudorabies virus, establish a lifelong presence within the peripheral nervous system of their mammalian hosts. Upon entering cells, two conserved tegument proteins, pUL36 and pUL37, traffic DNA-containing capsids to nuclei. These proteins support long-distance retrograde axonal transport and invasion of the nervous system in vivo. To better understand how pUL36 and pUL37 function, recombinant viral particles carrying BioID2 fused to these proteins were produced to biotinylate cellular proteins in their proximity (<10 nm) during infection. Eighty-six high-confidence host proteins were identified by mass spectrometry and subsequently targeted by CRISPR-Cas9 gene editing to assess their contributions to early infection. Proteins were identified that both supported and antagonized infection in immortalized human epithelial cells. The latter included zyxin, a protein that localizes to focal adhesions and regulates actin cytoskeletal dynamics. Zyxin knockout cells were hyper-permissive to infection and could be rescued with even modest expression of GFP-zyxin. These results provide a resource for studies of the virus-cell interface and identify zyxin as a novel deterrent to alphaherpesvirus infection.IMPORTANCENeuroinvasive alphaherpesviruses are highly prevalent with many members found across mammals [e.g., herpes simplex virus type 1 (HSV-1) in humans and pseudorabies virus in pigs]. HSV-1 causes a range of clinical manifestations from cold sores to blindness and encephalitis. There are no vaccines or curative therapies available for HSV-1. A fundamental feature of these viruses is their establishment of lifelong infection of the nervous system in their respective hosts. This outcome is possible due to a potent neuroinvasive property that is coordinated by two proteins: pUL36 and pUL37. In this study, we explore the cellular protein network in proximity to pUL36 and pUL37 during infection and examine the impact of knocking down the expression of these proteins upon infection.

Actin Cytoskeleton Remodeling Accompanied by Redistribution of Adhesion Proteins Drives Migration of Cells in Different EMT States.

Epithelial-mesenchymal transition (EMT) is a process during which epithelial cells lose epithelial characteristics and gain mesenchymal features. Here, we used several cell models to study migratory activity and redistribution of cell-cell adhesion proteins in cells in different EMT states: EGF-induced EMT of epithelial IAR-20 cells; IAR-6-1 cells with a hybrid epithelial-mesenchymal phenotype; and their more mesenchymal derivatives, IAR-6-1-DNE cells lacking adherens junctions. In migrating cells, the cell-cell adhesion protein α-catenin accumulated at the leading edges along with ArpC2/p34 and α-actinin. Suppression of α-catenin shifted cell morphology from fibroblast-like to discoid and attenuated cell migration. Expression of exogenous α-catenin in MDA-MB-468 cells devoid of α-catenin drastically increased their migratory capabilities. The Y654 phosphorylated form of ß-catenin was detected at integrin adhesion complexes (IACs). Co-immunoprecipitation studies indicated that α-catenin and pY654-ß-catenin were associated with IAC proteins: vinculin, zyxin, and α-actinin. Taken together, these data suggest that in cells undergoing EMT, catenins not participating in assembly of adherens junctions may affect cell migration.

Estudo da expressão e participação de VASP e Zyxin na diferenciação hematopoiética, na leucemia mieloide crônica e na via de sinalização BCR-ABL / VASP and Zyxin expression and participation in hematopoietic differentiation, in chronic myeloid leukemia and BCR-ABL signaling pathway

VASP (Vasodilator-stimulated phosphoprotein) e Zyxin são proteínas reguladoras de actina que controlam a adesão célula-célula. Zyxin dirige a montagem da actina através da interação e recrutamento da VASP a sítios específicos da adesão. A fosforilação da VASP ou da Zyxin altera suas atividades nas junções aderentes. PKA fosforila VASP em serina 157, regulando, assim, importantes funções celulares de VASP. VASP interage com ABL e é substrato da oncoproteína BCR-ABL. A presença da proteína BCR-ABL promove a oncogênese em pacientes com leucemia mieloide crônica (LMC) devido à ativação constitutiva da atividade tirosina quinase. Apesar de já descrita alteração da expressão de VASP e Zyxin em diferentes tumores epiteliais, o papel de VASP e Zyxin na LMC, na via de sinalização BCR-ABL e a participação destas proteínas na hematopoiese são desconhecidos. Desta maneira, demonstramos aqui ausência de p-VASP ser157 em células de medula óssea de pacientes com LMC, em contraste com a presença de p-VASP ser157 em doadores saudáveis. Pacientes com LMC em remissão, responsivos a inibidores de tirosina quinase, apresentam p-VASP ser157, enquanto os pacientes resistentes não expressam p-VASP ser157. Utilizando células K562 inibidas para VASP ou Zyxin, observamos que VASP e Zyxin modulam as proteínas anti-apoptóticas BCL-2 e BCL-XL da via de sinalização do BCR-ABL. Em adição, células K562 silenciadas para a VASP apresentam diminuição na atividade de FAK y925 e demonstramos que VASP interage com FAK. A expressão de VASP e Zyxin e de suas formas ativas aumenta durante a diferenciação megacariocítica e a inibição de VASP implica em diminuição na expressão do marcador CD61. Identificamos no presente estudo a participação de VASP e Zyxin na via do BCR-ABL, regulando a expressão de proteínas efetoras anti-apoptóticas e, também, na diferenciação megacariocítica...

VASP (vasodilator-stimulated phosphoprotein) and Zyxin are actin regulatory proteins that control cell-cell adhesion. Zyxin directs actin assembly by interacting and recruiting VASP to specific sites of adhesion. The phosphorylation of VASP and Zyxin modifies their activity in cell-cell junctions. PKA phosphorylates VASP at serine 157 regulating VASP cellular functions. VASP interacts with ABL and VASP is a substrate of BCR-ABL oncoprotein. The presence of BCR-ABL protein drives oncogenesis in patients with chronic myeloid leukemia (CML) due to a constitutive activation of tyrosine kinase activity. It has been described an altered expression of VASP and Zyxin in different types of tumor; however the function of VASP and Zyxin in CML, in BCR-ABL pathway and in hematopoiesis remains unknown. We describe here the absence of p-VASP ser157 in CML bone marrow cells, in contrast to p-VASP ser157 expression in healthy donors. Patients responsive to tyrosine kinase inhibitors present p-VASP ser157, while resistant patients do not have p-VASP ser157. In K562 cells we observed that VASP and Zyxin modulate anti-apoptotic proteins BCL-2 and BCL-XL. VASP depletion in K562 cells decreases FAK y925 activity and VASP interacts with FAK. Expression of VASP, p-VASP, Zyxin and p-Zyxin increases during megakaryocyte differentiation and VASP inhibition affects this differentiation through reduced CD61 expression in VASP depleted cells. We identify here the participation of VASP and Zyxin in BCR-ABL pathway affecting anti-apoptotic proteins and, also, in megakaryocyte differentiation. Then, the altered expression of VASP activity in CML patients may contribute to CML pathogenesis, affecting cellular differentiation or leukemic cell adhesion...