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Cho, In Ha,Lee, Min Jung,Kim, Dae Hwan,Kim, Bora,Bae, Jeomil,Choi, Kyu Yeong,Kim, Seon-Myung,Huh, Yun Hyun,Lee, Kun Ho,Kim, Chong-Hyun,Song, Woo Keun Springer Basel 2013 Cellular and molecular life sciences Vol.70 No.22
<P>Actin plays a fundamental role in the regulation of spine morphology (both shrinkage and enlargement) upon synaptic activation. In particular, actin depolymerization is crucial for the spine shrinkage in NMDAR-mediated synaptic depression. Here, we define the role of SPIN90 phosphorylation/dephosphorylation in regulating actin depolymerization via modulation of cofilin activity. When neurons were treated with NMDA, SPIN90 was dephosphorylated by STEP61 (striatal-enriched protein tyrosine phosphatase) and translocated from the spines to the dendritic shafts. In addition, phosphorylated SPIN90 bound cofilin and then inhibited cofilin activity, suggesting that SPIN90 dephosphorylation is a prerequisite step for releasing cofilin so that cofilin can adequately sever actin filaments into monomeric form. We found that SPIN90 YE, a phosphomimetic mutant, remained in the spines after NMDAR activation where it bound cofilin, thereby effectively preventing actin depolymerization. This led to inhibition of the activity-dependent redistribution of cortactin and drebrin A, as well as of the morphological changes in the spines that underlie synaptic plasticity. These findings indicate that NMDA-induced SPIN90 dephosphorylation and translocation initiates cofilin-mediated actin dynamics and spine shrinkage within dendritic spines, thereby modulating synaptic activity.</P><P><B>Electronic supplementary material</B></P><P>The online version of this article (doi:10.1007/s00018-013-1391-4) contains supplementary material, which is available to authorized users.</P>
Novel Macrolide Actin-inhibitors Isolated from Sea Sponges
Karaki, Hideaki,Ozaki, Hiroshi The Korean Society of Toxicology Korea Environment 2001 Toxicological Research Vol.17 No.-
Several marine toxins with macrolide structure have been found to act on actin. One of these toxins is mycalolide B isolated from the genus Mycale. This compound belongs to macrolide antibiotics and consists of tris-oxazole with strong cytotoxic activity ($IC_{50}$: 10-50 nM for growth of L1210 murine leukemia cells). This compound was found to be an actin-depolymerizing agent with the mode of action distinct from that of the known actin inhibitor, cytochalasin D. Tolytoxin, a macrolide isolated from cyano-bacteria with similar chemical structure to mycalolide B, seems to have similar effect. Another macrolide compound, aplyronine A, showed the effects similar to those of mycalolide B. Although bistheonellide A, a dimeric macrolide, did not show a severing effect, it de polymerized F-actin and sequestered G-actin by forming 1 : 2 complex with G-actins. Swinholide A has a structure and effects similar to those of bistheonel-lide A. In conclusion, mycalolide B, tolytoxin, aplyronine A, bistheonellide A and swinholide A are the members of "actin de polymerizing macrolide" the mechanism of which is different from that of cytochalasin D.halasin D.
Kim, Ji-Eun,Kim, Dae-Won,Kwak, Sung-Eun,Ryu, Hea Jin,Yeo, Seong-Il,Kwon, Oh-Shin,Choi, Soo-Young,Kang, Tae-Cheon Wiley Subscription Services, Inc., A Wiley Company 2009 Hippocampus Vol.19 No.11
<P>Pyridoxal-5′-phosphate (PLP)-phosphatase/chronophin (PLPP/CIN) directly dephosphorylates actin-depolymerizing factor (ADF)/cofilin as well as PLP. Although PLPP/CIN plays a role in the regulation of F-actin and vitamin B<SUB>6</SUB> metabolism, there is no direct evidence to support a correlation between PLPP/CIN and F-actin polymerization during long-term potentiation (LTP) induction. In this study, we investigated whether the expression of PLPP/CIN is altered following LTP induction, and whether Tat-PLPP/CIN transduction affects LTP induction in the rat dentate gyrus (DG). PLPP/CIN immunoreactivity was markedly decreased in dentate granule cells after the induction of LTP. Tat-PLPP/CIN transduction (20 and 200 μg/kg) decreased the efficiency of high frequency stimulus-induced potentiation of populations spike amplitude as compared to saline or Tat-protein-treated animals. The PLPP/CIN protein level showed an inverse correlation with phosphorylated ADF/cofilin levels and F-actin content. These findings suggest that PLPP/CIN-mediated actin dynamics may play an important role in the changes of morphological properties (dendritic spine reorganization) of the hippocampus in LTP. © 2009 Wiley-Liss, Inc.</P>
LRRK2 decreases microglial actin dynamics by filamentous actin depolymerization and Rac1 inhibition
김범수,서영호,조은혜 한국통합생물학회 2022 Animal cells and systems Vol.26 No.6
An active actin dynamic is a crucial feature of brain microglia. Here we report that LRRK2, a primary familial Parkinson’s disease-associated gene, negatively regulates microglia’s actin dynamics. LRRK2 depolymerized filamentous actin (F-actin) by directly binding to it or inhibiting microglia’s Rac-PAK signaling. LRRK2 knockdown resulted in a reduced ruffle and enhanced lamellipodia formation of ADP-activated microglia, altering the microglia’s physiological activity to vigorous migration toward damaged cells. These results suggest that LRRK2 is a negative regulator for the controlled actin dynamics in microglia.