A direct interaction with calponin inhibits the actin-nucleating activity of gelsolin

Ferjani, Imen; Fattoum, Abdellatif; Maciver, Sutherland K.; Bénistant, Christine; Chahinian, Anne; Manaï, Mohamed; Benyamin, Yves; Roustan, Claude

doi:10.1042/bj20051690

Cited by 14 publications

(12 citation statements)

References 45 publications

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“…The binding of monomeric actin within the calponin regulatory region is likely to prevent it binding F‐actin and a number of other proteins that calponin binds to. One of these binding partners is gelsolin, this interaction is mediated through the same small region that encompasses the actin binding sites, ABS1 and ABS2 and we have shown that calponin cannot bind gelsolin and F‐actin simultaneously [6]. We anticipate that the binding of G‐actin will also prevent calponin binding to gelsolin, thereby preventing the formation of the gelsolin calponin complex.…”

Section: Discussionmentioning

confidence: 82%

“…The shift in the emission fluorescence spectra is plotted versus G‐actin concentrations. Inset, quantitative analysis of the above data for the interaction between acrylodan labeled‐calponin and G‐actin was performed by plotting 1/(1− X ) versus C / X ∗ E where C corresponds to concentration of G‐actin expressed in μM and E to concentration of calponin fixed at 0.37 μM [6]. The data fit an extrapolated value of 22 nm for the maximum emission shift.…”

Section: Resultsmentioning

confidence: 99%

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Calponin binds G‐actin and F‐actin with similar affinity

et al. 2006

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Calponins are actin-binding proteins that are implicated in the regulation of actomyosin. Calponin binds filamentous actin (F-actin) through two distinct sites ABS1 and ABS2, with an affinity in the low micromolar range. We report that smooth muscle calponin binds monomeric actin with a similar affinity (K d of 0.15 lM). We show that the arrangement of binding is similar to that of F-actin by a number of criteria, most notably that the distance between Cys273 on calponin and Cys374 of actin is 29 Å when measured by fluorescent resonance energy transfer, the same distance as previously reported for F-actin.

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Section: Discussionmentioning

confidence: 82%

Section: Resultsmentioning

confidence: 99%

Calponin binds G‐actin and F‐actin with similar affinity

et al. 2006

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“…It also binds Ca 2? -calmodulin [1,2], tropomyosin [26], myosin [27,28], the 20-kDa regulatory light chain of myosin [29], desmin [30,31], tubulin [32], caldesmon [33], caltropin [34], gelsolin [35], and phospholipids [36].…”

Section: Structure-function Relationships Of Calponinmentioning

confidence: 99%

Calponin in Non-Muscle Cells

Jin

2008

Cell Biochem Biophys

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Calponin is an actin filament-associated regulatory protein expressed in smooth muscle and non-muscle cells. Calponin is an inhibitor of the actin-activated myosin ATPase. Three isoforms of calponin have been found in the vertebrates. Whereas the role of calponin in regulating smooth muscle contractility has been extensively investigated, the function and regulation of calponin in non-muscle cells is much less understood. Based on recent progresses in the field, this review focuses on the studies of calponin in non-muscle cells, especially its regulation by cytoskeleton tension and function in cell motility. The ongoing research has demonstrated that calponin plays a regulatory role in non-muscle cell motility. Therefore, non-muscle calponin is an attractive target for the control of cell proliferation, migration and phagocytosis, and the treatment of cancer metastasis.

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“…Toward this, an in vitro actin polymerization assay was performed as described elsewhere (Ferjani et al, 2006). In brief, rhodamine-labeled nonnucleated actin monomers were incubated with recombinant functional GSN protein (GSN1-6) or, as a control, a truncated nonfunctional GSN peptide (GSN3-4).…”

Section: Activity Of Gsn Is Inhibited By the Association With Pkrmentioning

confidence: 99%

Regulation of Actin Dynamics by Protein Kinase R Control of Gelsolin Enforces Basal Innate Immune Defense

et al. 2012

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Primary resistance to pathogens is reliant on both basal and inducible immune defenses. To date, research has focused upon inducible innate immune responses. In contrast to resistance via cytokine induction, basal defense mechanisms are less evident. Here we showed that the antiviral protein kinase R (PKR) inhibited the key actin-modifying protein gelsolin to regulate actin dynamics and control cytoskeletal cellular functions under homeostatic conditions. Through this mechanism, PKR controlled fundamental innate immune, actin-dependent processes that included membrane ruffling and particle engulfment. Accordingly, PKR counteracted viral entry into the cell. These findings identify a layer of host resistance, showing that the regulation of actin-modifying proteins during the innate immune response bolsters first-line defense against intracellular pathogens and has a sustained effect on virus production. Moreover, these data provide proof of principle for a concept in which the cell cytoskeleton could be targeted to elicit broad antiviral protection.

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A direct interaction with calponin inhibits the actin-nucleating activity of gelsolin

Cited by 14 publications

References 45 publications

Calponin binds G‐actin and F‐actin with similar affinity

Calponin binds G‐actin and F‐actin with similar affinity

Calponin in Non-Muscle Cells

Regulation of Actin Dynamics by Protein Kinase R Control of Gelsolin Enforces Basal Innate Immune Defense

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