Jessica Zareno scite author profile

Using two-colour imaging and high resolution TIRF microscopy, we investigated the assembly and maturation of nascent adhesions in migrating cells. We show that nascent adhesions assemble and are stable within the lamellipodium. The assembly is independent of myosin II but its rate is proportional to the protrusion rate and requires actin polymerization. At the lamellipodium back, the nascent adhesions either disassemble or mature through growth and elongation. Maturation occurs along an α-actinin–actin template that elongates centripetally from nascent adhesions. α-Actinin mediates the formation of the template and organization of adhesions associated with actin filaments, suggesting that actin crosslinking has a major role in this process. Adhesion maturation also requires myosin II. Rescue of a myosin IIA knockdown with an actin-bound but motor-inhibited mutant of myosin IIA shows that the actin crosslinking function of myosin II mediates initial adhesion maturation. From these studies, we have developed a model for adhesion assembly that clarifies the relative contributions of myosin II and actin polymerization and organization.

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Regulation of protrusion, adhesion dynamics, and polarity by myosins IIA and IIB in migrating cells

Vicente‐Manzanares

et al. 2007

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We have used isoform-specific RNA interference knockdowns to investigate the roles of myosin IIA (MIIA) and MIIB in the component processes that drive cell migration. Both isoforms reside outside of protrusions and act at a distance to regulate cell protrusion, signaling, and maturation of nascent adhesions. MIIA also controls the dynamics and size of adhesions in central regions of the cell and contributes to retraction and adhesion disassembly at the rear. In contrast, MIIB establishes front–back polarity and centrosome, Golgi, and nuclear orientation. Using ATPase- and contraction-deficient mutants of both MIIA and MIIB, we show a role for MIIB-dependent actin cross-linking in establishing front–back polarity. From these studies, MII emerges as a master regulator and integrator of cell migration. It mediates each of the major component processes that drive migration, e.g., polarization, protrusion, adhesion assembly and turnover, polarity, signaling, and tail retraction, and it integrates spatially separated processes.

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Suppressed proliferation and apoptotic changes in the rat dentate gyrus after acute and chronic stress are reversible

Heine

Maslam

Zareno

et al. 2003

Eur J of Neuroscience

287

217

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Acute stress suppresses new cell birth in the hippocampus in several species. Relatively little is known, however, on how chronic stress affects the turnover, i.e. proliferation and apoptosis, of the rat dentate gyrus (DG) cells, and whether the stress effects are lasting. We investigated how 3 weeks of chronic unpredictable stress would influence the structural dynamic plasticity of the rat DG, and studied newborn cell proliferation, survival, apoptosis, volume and cell number in 10-week-old animals. To study lasting effects, another group of animals was allowed to recover for 3 weeks. Based on two independent parameters, bromodeoxyuridine (BrdU) and Ki-67 immunocytochemistry, our results show that both chronic and acute stress decrease new cell proliferation rate. The reduced proliferation after acute stress normalized within 24 h. Interestingly, chronically stressed animals showed recovery after 3 weeks, albeit with still fewer proliferating cells than controls. Apoptosis, by contrast, increased after acute but decreased after chronic stress. These results demonstrate that, although chronic stress suppresses proliferation and apoptosis, 3 weeks of recovery again normalized most of these alterations. This may have important implications for our understanding of the reversibility of stress-related hippocampal volume changes, such as occur, for example, in depression.

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Probing the integrin-actin linkage using high-resolution protein velocity mapping

et al. 2006

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Cell migration is regulated in part by the connection between the substratum and the actin cytoskeleton. However, the very large number of proteins involved in this linkage and their complex network of interactions make it difficult to assess their role in cell migration. We apply a novel image analysis tool, spatio-temporal image correlation spectroscopy (STICS), to quantify the directed movements of adhesion-related proteins and actin in protrusions of migrating cells. The STICS technique reveals protein dynamics even when protein densities are very low or very high, and works in the presence of large, static molecular complexes. Detailed protein velocity maps for actin and the adhesion-related proteins α-actinin, α5-integrin, talin, paxillin, vinculin and focal adhesion kinase are presented. The data show that there are differences in the efficiency of the linkage between integrin and actin among different cell types and on the same cell type grown on different substrate densities. We identify potential mechanisms that regulate efficiency of the linkage, or clutch, and identify two likely points of disconnect, one at the integrin and the other at α-actinin or actin. The data suggests that the efficiency of the linkage increases as actin and adhesions become more organized showing the importance of factors that regulate the efficiency in adhesion signaling and dynamics.

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Jessica Zareno

Actin and α-actinin orchestrate the assembly and maturation of nascent adhesions in a myosin II motor-independent manner

Regulation of protrusion, adhesion dynamics, and polarity by myosins IIA and IIB in migrating cells

Suppressed proliferation and apoptotic changes in the rat dentate gyrus after acute and chronic stress are reversible

Probing the integrin-actin linkage using high-resolution protein velocity mapping

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