Positive feedback between Dia1, LARG, and RhoA regulates cell morphology and invasion

Kitzing, Thomas; Sahadevan, Arul S.; Brandt, Dominique; Knieling, Helga; Hannemann, Sebastian; Fackler, Oliver T.; Großhans, Jörg; Grosse, Robert

doi:10.1101/gad.424807

Cited by 151 publications

(169 citation statements)

References 32 publications

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“…[31][32][33][34][35][36] While the role for active RhoA signaling in facilitating essential cellular processes has been wellestablished 9,[37][38][39][40][41] there are circumstances where RhoA signaling must be downregulated, either physiologically or pathologically to elicit a biological response. 41,42 Given the importance of the actomyosin cytoskeleton in positively regulating RhoA signaling, 7,[43][44][45] targeting actin-regulators such as Coronin 1B might be one of the approaches to achieve a precise spatiotemporal regulation of RhoA. In summary, our analysis contributes to the growing notion that Rho-GTPases and cytoskeleton regulators act in sync to establish epithelial homeostasis and contractility.…”

Section: Resultsmentioning

confidence: 77%

Coronin 1B supports RhoA signaling at cell-cell junctions through Myosin II

et al. 2016

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Non-muscle myosin II (NMII) motor proteins are responsible for generating contractile forces inside eukaryotic cells. There is also a growing interest in the capacity for these motor proteins to influence cell signaling through scaffolding, especially in the context of RhoA GTPase signaling. We previously showed that NMIIA accumulation and stability within specific regions of the cell cortex, such as the zonula adherens (ZA), allows the formation of a stable RhoA signaling zone. Now we demonstrate a key role for Coronin 1B in maintaining this junctional pool of NMIIA, as depletion of Coronin 1B significantly compromised myosin accumulation and stability at junctions. The loss of junctional NMIIA, upon Coronin 1B knockdown, perturbed RhoA signaling due to enhanced junctional recruitment of the RhoA antagonist, p190B Rho GAP. This effect was blocked by the expression of phosphomimetic MRLC-DD, thus reinforcing the central role of NMII in regulating RhoA signaling.

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Section: Resultsmentioning

confidence: 77%

Coronin 1B supports RhoA signaling at cell-cell junctions through Myosin II

et al. 2016

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“…Supporting this assumption, these genes frequently involve potential proto-oncogenes, like MYC, 33 HOXA9, 34 SET, 35 RUNX1, 36 RAN, 37 PARK7, 38,39 and DIAPH1. 40 Moreover, several of the hypomethylated genes that we identified in this study, that is, ZCCHC7, HOXA9 and MYC, have all been shown to be activated by the MLL-AF4 fusion itself via H3K79 methylation through the recruitment of DOT1L. 13,14 This observation indisputably illustrates interactions between DNA methylation and histone modifica- …”

Section: ) (A) Tsa (B) Saha (C) Lbh589 (D) Vpa (E) Fk228 (Fmentioning

confidence: 85%

Connectivity mapping identifies HDAC inhibitors for the treatment of t(4;11)-positive infant acute lymphoblastic leukemia

et al. 2011

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MLL-rearranged infant acute lymphoblastic leukemia (ALL) is an aggressive type of leukemia characterized by a unique geneexpression profile. We uncovered that the activation of particular (proto-onco)genes is mediated by promoter hypomethylation. In search for therapeutic agents capable of targeting these potential cancer-promoting genes, we applied connectivity mapping on a gene expression signature based on the genes most significantly hypomethylated in t(4;11)-positive infant ALL as compared with healthy bone marrows. This analysis revealed histone deacetylase (HDAC) inhibitors as suitable candidates to reverse the unfavorable gene signature. We show that HDAC inhibitors effectively induce leukemic cell death in t(4;11)-positive primary infant ALL cells, accompanied by downregulation of MYC, SET, RUNX1, RAN as well as the MLL-AF4 fusion product. Furthermore, DNA methylation was restored after HDAC inhibitor exposure. Our data underlines the essential role for epigenetic de-regulation in MLL-rearranged ALL. Furthermore, we show, for the first time, that connectivity mapping can indirectly be applied on DNA methylation patterns, providing a rationale for HDAC inhibition in t(4;11)-positive leukemias. Given the presented potential of HDAC inhibitors to target important proto-oncogenes including the leukemia-specific MLL fusion in vitro, these agents should urgently be tested in in vivo models and subsequent clinical trials.

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“…Only few studies previously addressed the involvement of specific actin nucleators in PM blebbing. Using experimental systems in which PM blebbing was induced by genetic manipulation or protein overexpression, nucleators such as mDia1, mDia2, FHOD1, Arp2/3 that are also involved in the regulation of diverse additional cellular actin remodeling events were implicated in blebbing [12,[41][42][43]. In this present study, we conducted a comprehensive analysis of the involvement of endogenously expressed human actin nucleators in PM blebbing of adhering HeLa cells.…”

Section: Discussionmentioning

confidence: 99%

“…Conceivably, the set of nucleators involved may differ between cell types and bleb stimuli. Identified already as a prerequisite for PM blebbing during amoeboid invasion of cancer cells [41], Dia1 may represent a nucleator with roles in a broad range of PM blebbing scenarios. Interestingly, with Spir1 and FMN1, we also identified two nucleators that cooperate in regulated actin remodeling [44,45], and addressing their specific role in PM blebbing will be an interesting goal for future studies.…”

Section: Discussionmentioning

confidence: 99%

Differing and isoform-specific roles for the formin DIAPH3 in plasma membrane blebbing and filopodia formation

et al. 2011

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Plasma membrane (PM) blebs are dynamic actin-rich cell protrusions that occur, e.g., during cytokinesis, amoeboid cell motility and cell attachment. Using a targeted siRNA screen against 21 actin nucleation factors, we identify a novel and essential role of the human diaphanous formin DIAPH3 in PM blebbing during cell adhesion. Suppression of DIAPH3 inhibited blebbing to promote rapid cell spreading involving β1-integrin. Multiple isoforms of DIAPH3 were detected on the mRNA and protein level of which isoforms 3 and 7 were the largest and most abundant isoforms that however did not induce formation of actin-rich protrusions. Rather, PM blebbing specifically involved the low abundance isoform 1 of DIAPH3 and activation of isoform 7 by deletion of the diaphanous-autoregulatory domain caused the formation of filopodia. Dimerization and actin assembly activity were essential for induction of specific cell protrusions by DIAPH3 isoforms 1 and 7. Our data suggest that the N-terminal region comprising the GTPasebinding domain determined the subcellular localization of the formin as well as its protrusion activity between blebs and filopodia. We propose that isoform-selective actin assembly by DIAPH3 exerts specific and differentially regulated functions during cell adhesion and motility.

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Positive feedback between Dia1, LARG, and RhoA regulates cell morphology and invasion

Cited by 151 publications

References 32 publications

Coronin 1B supports RhoA signaling at cell-cell junctions through Myosin II

Coronin 1B supports RhoA signaling at cell-cell junctions through Myosin II

Connectivity mapping identifies HDAC inhibitors for the treatment of t(4;11)-positive infant acute lymphoblastic leukemia

Differing and isoform-specific roles for the formin DIAPH3 in plasma membrane blebbing and filopodia formation

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