The role of cyclase-associated protein in regulating actin filament dynamics – more than a monomer-sequestration factor

Ono, Shoichiro

doi:10.1242/jcs.128231

Cited by 107 publications

(159 citation statements)

References 128 publications

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Section: Identification Of Targets For Ph Alterationsmentioning

confidence: 99%

“…CAP sequesters actin monomers, prevents them from polymerization in vitro, and also, promotes the severing of actin filaments in association with ADF (Barrero et al, 2002;Chaudhry et al, 2007;Deeks et al, 2007;Ono, 2013). Plant CAP is likely to be a key regulator of actin dynamics using a mechanism unique to plants Ono, 2013). The loss-of-function cap1 mutant in Arabidopsis has major defects in pollen germination and tube growth, with altered actin configuration consistent with a major role for CAP in regulating actin dynamics (Deeks et al, 2007).…”

Section: Identification Of Targets For Ph Alterationsmentioning

confidence: 99%

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Self-Incompatibility-Induced Programmed Cell Death in Field Poppy Pollen Involves Dramatic Acidification of the Incompatible Pollen Tube Cytosol

et al. 2015

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Self-incompatibility (SI) is an important genetically controlled mechanism to prevent inbreeding in higher plants. SI involves highly specific interactions during pollination, resulting in the rejection of incompatible (self) pollen. Programmed cell death (PCD) is an important mechanism for destroying cells in a precisely regulated manner. SI in field poppy (Papaver rhoeas) triggers PCD in incompatible pollen. During SI-induced PCD, we previously observed a major acidification of the pollen cytosol. Here, we present measurements of temporal alterations in cytosolic pH ([pH] cyt ); they were surprisingly rapid, reaching pH 6.4 within 10 min of SI induction and stabilizing by 60 min at pH 5.5. By manipulating the [pH] cyt of the pollen tubes in vivo, we show that [pH] cyt acidification is an integral and essential event for SI-induced PCD. Here, we provide evidence showing the physiological relevance of the cytosolic acidification and identify key targets of this major physiological alteration. A small drop in [pH] cyt inhibits the activity of a soluble inorganic pyrophosphatase required for pollen tube growth. We also show that [pH] cyt acidification is necessary and sufficient for triggering several key hallmark features of the SI PCD signaling pathway, notably activation of a DEVDase/caspase-3-like activity and formation of SI-induced punctate actin foci. Importantly, the actin binding proteins Cyclase-Associated Protein and ActinDepolymerizing Factor are identified as key downstream targets. Thus, we have shown the biological relevance of an extreme but physiologically relevant alteration in [pH] cyt and its effect on several components in the context of SI-induced events and PCD.

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Section: Identification Of Targets For Ph Alterationsmentioning

confidence: 99%

Section: Identification Of Targets For Ph Alterationsmentioning

confidence: 99%

Self-Incompatibility-Induced Programmed Cell Death in Field Poppy Pollen Involves Dramatic Acidification of the Incompatible Pollen Tube Cytosol

et al. 2015

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“…17,18 Most CAP homologs consist of three structural domains, namely the N terminus domain (NT), the C terminus domain (CT), and the proline-rich middle domain. 7,15 The NT is structurally less conserved compared with the CT and the middle domain and the G-actin sequestering capability was first mapped to the CT of both mammalian CAP1 and yeast CAP, although later a second G-actin binding site consisting of a WH2 (Wasp Homology 2) domain was also found. 7 All three domains of mammalian CAP1 and yeast CAP contribute to promoting actin filament turnover through interactions with cofilin as well as both Gand F-actin.…”

Section: Cap1 As a Key Actin-regulatory Protein That Promotes Cofilinmentioning

confidence: 99%

“…6 One G-actinsequestering protein is CAP (Cyclaseassociated protein), which is conserved in all eukaryotes, and has been studied for the past two decades. 7 CAP was first identified in yeast where it regulates both Ras/cAMP signaling and the actin cytoskeleton, but the Ras function is confined to yeast, accordingly, most subsequent studies have focused on its role in the actin cytoskeleton. [7][8][9][10] Mammalian CAP1 and yeast CAP both promote cofilin-driven actin filament turnover, which is believed to be a conserved feature among all CAP homologs based on the morphological phenotypes accompanying CAP perturbation, as well as the fact that expression of CAP homologs from other species rescues the actin phenotypes in CAP-knockout yeast.…”

Section: Introductionmentioning

confidence: 99%

“…[7][8][9][10] Mammalian CAP1 and yeast CAP both promote cofilin-driven actin filament turnover, which is believed to be a conserved feature among all CAP homologs based on the morphological phenotypes accompanying CAP perturbation, as well as the fact that expression of CAP homologs from other species rescues the actin phenotypes in CAP-knockout yeast. 7 7,15 CAP1 is more widely expressed and studied. The main focus of this commentary is on the role of mammalian CAP1 in cell migration, through its role in the actin filament dynamics and potential involvement in cell adhesion signaling.…”

Section: Introductionmentioning

confidence: 99%

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Mammalian CAP (Cyclase-associated protein) in the world of cell migration

Zhou

Zhang

Field

2013

Cell Adhesion & Migration

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A homozygous CAP2 pathogenic variant in a neonate presenting with rapidly progressive cardiomyopathy and nemaline rods

Sharavana

Sebastian

Baker

et al. 2021

American J of Med Genetics Pt A

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Nemaline Myopathy (NM) is a disorder of skeletal muscles caused by mutations in sarcomere proteins and characterized by accumulation of microscopic rod or threadlike structures (nemaline bodies) in skeletal muscles. Patients diagnosed with both NM and infantile cardiomyopathy are very rare. A male infant presented, within the first few hours of life, with severe dilated cardiomyopathy, biventricular dysfunction and left ventricular noncompaction. A muscle biopsy on the 8th day of life from the

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The role of cyclase-associated protein in regulating actin filament dynamics – more than a monomer-sequestration factor

Cited by 107 publications

References 128 publications

Self-Incompatibility-Induced Programmed Cell Death in Field Poppy Pollen Involves Dramatic Acidification of the Incompatible Pollen Tube Cytosol

Self-Incompatibility-Induced Programmed Cell Death in Field Poppy Pollen Involves Dramatic Acidification of the Incompatible Pollen Tube Cytosol

Mammalian CAP (Cyclase-associated protein) in the world of cell migration

A homozygous CAP2 pathogenic variant in a neonate presenting with rapidly progressive cardiomyopathy and nemaline rods

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