EC:2.3.1.108 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.3.1.108 (TAT)
2,389 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In osteoclasts, polyphosphoinositides such as phosphatidylinositol 4,5 bisphosphate (PI(4,5)P2) and phosphatidylinositol 3,4,5 trisphosphate (PI(3,4,5)P3) are produced in response to integrin alphavbeta3 signaling and they have a critical role in actin cytoskeleton remodeling. The levels of PI(4,5)P2 and PI(3,4,5)P3 are regulated by Rho GTPase through the activation of phosphatidylinositol 4-phosphate 5-kinase (PI4P-5 kinase) and phospatidylinositol 3-kinase (PI3 kinase), respectively. Interaction of PI(4,5)P2 with gelsolin and Wiscott-Aldrich syndrome protein (WASP) is critical for podosome assembly/disassembly and actin ring formation in osteoclasts. Interaction of PI(3,4,5)P3 with gelsolin functions in orchestrating the podosome signaling complex consisting of several key signaling molecules. Gelsolin deficiency has been shown to block podosome assembly and motility in mouse osteoclasts. However, these osteoclasts are able to form a WASP-containing actin ring and retain their resorptive function. The TAT-mediated delivery of gelsolin phosphoinositide-binding domains into osteoclasts resulted in production of podosome clusters and disruption of actin ring formation. Hence, these osteoclasts were hypomotile and less resorptive. Our observations suggest that both PI(4,5)P2 and PI(3,4,5)P3 are involved in regulating osteoclast functions through modulation of severing, capping, and nucleating functions of actin-binding proteins.
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PMID:Regulation of podosomes by integrin alphavbeta3 and Rho GTPase-facilitated phosphoinositide signaling. 1646 Aug 38

The Clostridium botulinum C3 exoenzyme has been an invaluable tool for the study of the biological functions of Rho GTPases. The C3 enzyme selectively catalyzes the ADP-ribosylation, and consequent inactivation, of RhoA, RhoB, and RhoC of the Rho GTPase protein family. Through the experimental use of C3, it has been possible to determine the contributions made by these signaling proteins to processes including the regulation of cell morphology, cell cycle progression, and gene transcription. Unlike bacterial toxins that have some means to attach to and/or enter cells, C3 does not have an element that facilitates efficient entry. As a result, numerous methods have been used to effectively deliver C3 into cells. One approach has been to engineer a recombinant C3 with an HIV TAT leader sequence that permits transduction of the protein across the plasma membrane. In this chapter, the purification and characterization of the recombinant TAT-C3 protein is described.
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PMID:Purification of TAT-C3 exoenzyme. 1647 55

Statins are widely used clinical drugs that exert beneficial growth-suppressive effects in patients with cardiac hypertrophy. We investigated the role of the cell cycle inhibitor p21(CIP1/WAF1) (p21) in statin-dependent inhibition of hypertrophic growth in postmitotic cardiomyocytes. We demonstrate that lovastatin fails to inhibit cardiac hypertrophy to angiotensin II in p21(-/-) mice and that reconstitution of p21 function by TAT.p21 protein transduction can rescue statin action in these otherwise normally developed animals. Lovastatin specifically recruits the forkhead box FoxO3a transcription factor to the p21 promoter, mediating transcriptional transactivation of the p21 gene as analyzed in isolated primary cardiomyocytes. Lovastatin also stimulates protein kinase B/Akt kinase activity, and Akt-dependent phosphorylation forces p21 in the cytoplasm, where it inhibits Rho-kinases contributing to the suppression of cardiomyocyte hypertrophy. Loss of p21 or FoxO3a by RNA interference causes a general inhibition of lovastatin signal transduction. These results suggest that p21 functions as FoxO3a downstream target to mediate an statin-derived anti-hypertrophic response. Taken together, our genetic and biochemical data delineate an essential function of p21 for statin-dependent inhibition of cardiac myocyte hypertrophy.
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PMID:Critical role for FoxO3a-dependent regulation of p21CIP1/WAF1 in response to statin signaling in cardiac myocytes. 1715 37

Phagocytosis is a complex process involving the activation of various signaling pathways, such as the Rho GTPases, and the subsequent reorganization of the actin cytoskeleton. In neutrophils, Rac and Cdc42 are activated during phagocytosis but less is known about the involvement of these GTPases during the different stages of the phagocytic process. The aim of this study was to elucidate the role of Cdc42 in phagocytosis and the subsequent phagosomal maturation. Using a TAT-based protein transduction technique, we introduced dominant negative and constitutively active forms of Cdc42 into neutrophil-like HL60 (human leukemia) cells that were allowed to phagocytose IgG-opsonized yeast particles. Staining of cellular F-actin in cells transduced with constitutively active Cdc42 revealed that the activation of Cdc42 induced sustained accumulation of periphagosomal actin. Moreover, the fusion of azurophilic granules with the phagosomal membrane was prevented by the accumulated F-actin. In contrast, introducing dominant negative Cdc42 impaired the translocation per se of azurophilic granules to the periphagosomal area. These results show that efficient phagosomal maturation and the subsequent eradication of ingested microbes in human neutrophils is dependent on a strictly regulated Cdc42. To induce granule translocation, Cdc42 must be in its active state but has to be inactivated to allow depolymerization of the F-actin cage around the phagosome, a process essential for phagolysosome formation.
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PMID:Inactivation of Cdc42 is necessary for depolymerization of phagosomal F-actin and subsequent phagosomal maturation. 1751 86

Organotypic cultures of postnatal day 1 (P1) to P7 mouse cerebella are well-established models for studying cell survival. In the present work, we investigate the involvement of the Rho/ROCK intracellular pathway in Purkinje cell survival by using organotypic cultures of P3 Swiss mice. Specific inhibitors of Rho or ROCK were applied at different concentrations to the slice cultures, which were maintained for 5 days in vitro. We show that the bacterial exoenzyme C3 transferase, a specific inhibitor of the small GTPase Rho, increases Purkinje cell survival. There is a 4.5- and 2.5-fold increase in Purkinje cell survival when C3 intracellular uptake is promoted either by the PEP-1 peptide or by the C2IN carrier protein, respectively, and not with the commonly used TAT peptide. Moreover, treatment with Y27632 and H-1152, two specific inhibitors of the Rho kinase ROCK, also strongly reduces apoptotic cell death and results in 6.5- and 8.5-fold increases in cell survival, respectively. In immunohistochemical analysis, we also show that H-1152 did not change either glial fibrillary acidic protein or isolectin-B4 staining, indicating that this compound did not alter the cellular composition in our cultures. Thus, our data demonstrate that inhibition of Rho and its downstream effector ROCK may be used to enhance cell survival in neurodegenerative diseases.
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PMID:Purkinje cell survival in organotypic cultures: implication of Rho and its downstream effector ROCK. 1789 23

Rac1 and Rac2, members of the small Rho GTPase family, play essential roles in coordinating directional migration and superoxide production during neutrophil responses to chemoattractants. Although earlier studies in Rac1 and Rac2 knockout mice have demonstrated unique roles for each Rac isoform in chemotaxis and NADPH oxidase activation, it is still unclear how human neutrophils use Rac1 and Rac2 to achieve their immunological responses to foreign agent stimulation. In the current study, we used TAT dominant-negative Rac1-T17N and Rac2-T17N fusion proteins to acutely alter the activity of Rac1 and Rac2 individually in human neutrophils. We demonstrate distinct activation kinetics and different roles for Rac1 and Rac2 in response to low vs high concentrations of fMLP. These observations were verified using neutrophils from mice in which Rac1 or Rac2 was genetically absent. Based on these results, we propose a model to explain how human neutrophils kill invading microbes while limiting oxidative damage to the adjacent surrounding healthy tissue through the differential activation of Rac1 and Rac2 in response to different concentrations of chemoattractant.
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PMID:Human neutrophils coordinate chemotaxis by differential activation of Rac1 and Rac2. 1962 48

Osteoclastogenesis (OCG) results from the fusion of monocytes after stimulation with macrophage colony-stimulating factor (M-CSF) and receptor activator of NF-kappaB ligand (RANKL). Migration of monocytes into close proximity precedes critical fusion events that are required for osteoclast formation. Cellular migration requires leading-edge actin cytoskeleton assembly that drives cellular locomotion. Filamin A (FLNa) cross-links F-actin filaments in the leading edge of migrating cells and also has been shown to regulate signal transduction during cell migration. However, little is known about the possible role of FLNa in osteoclastogenesis. Our objective in this study was to investigate the role of FLNa in osteoclastogenesis. Bone marrow monocytes isolated from the tibiae and femora of wild type (WT) and Flna-null mice were cultured for 6 days with M-CSF and RANKL, and osteoclasts were identified by tartrate-resistant acid phosphatase (TRACP) staining. The Flna-null mouse skeletal phenotype was characterized using dual-energy X-ray absorptiometry (DXA) to analyze the skeleton, as well as tests on blood chemistry. Osteoclast levels in vivo were quantified by counting of TRACP-stained histologic sections of distal femora. To elucidate the mechanisms by which Flna regulates osteoclastogenesis, migration, actin polymerization, and activation of Rho GTPases, Rac1, Cdc42, and RhoA were assessed in monocytes during in vitro OCG. Deficiencies in migration were rescued using constitutively active Rac1 and Cdc42 TAT fusion proteins. The RANKL signaling pathway was evaluated for activation by monitoring nuclear translocation of NF kappaB and c-jun and expression of key osteoclast genes using quantitative real-time polymerase chain reaction (qRT-PCR). Our results show that Flna-null monocytes formed fewer osteoclasts in vitro, and those that were formed were smaller with fewer nuclei. Decreased OCG was reflected in vivo in TRACP-stained histologic bone sections. Flna-null monocytes experienced impaired migratory ability. When OCG was performed at increasing starting cellular plating densities in order to decrease intercellular distances, there was progressive rescue of Flna-null osteoclast formation comparable with WT levels, confirming that Flna regulates monocyte migration prefusion. Activation of the actin cytoskeleton regulators Rac1, Cdc42, and RhoA and actin free-barbed end generation were partially or completely abrogated in Flna-null monocytes; however, monocyte migration was restored on rescuing with constitutively active Rac1 and Cdc42 TAT fusion proteins. We conclude that filamin A is required for osteoclastogenesis by regulating actin dynamics via Rho GTPases that control monocyte migration.
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PMID:Filamin A regulates monocyte migration through Rho small GTPases during osteoclastogenesis. 1992 39

To activate the GTPase Rac in rat basophilic leukemia (RBL) cells and mouse bone marrow-derived mast cells (BMMC) a TAT fusion toxin of Bordetella dermonecrotic toxin (DNT-TAT) was constructed. The fusion toxin activated Rac1 and RhoA in vitro but only Rac in RBL cells and BMMC. DNT-TAT caused an increase in inositol phosphate formation, calcium mobilization, ERK activation and degranulation of mast cells. All these effects were inhibited by the Rho GTPase-inactivating Clostridium difficile toxin B and Clostridium sordellii lethal toxin. Also the calcium ionophore A23187 caused mast cell activation, including ERK phosphorylation, by processes involving an activation of Rac. The data indicate pleiotropic functions of Rac in mast cell activation.
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PMID:Pleiotropic role of Rac in mast cell activation revealed by a cell permeable Bordetella dermonecrotic fusion toxin. 2021 24

Historically, in vitro culturing of primary osteoclasts involved co-culturing of mononuclear monocytes with bone marrow stromal cells, thereby providing the cytokines required for osteoclast formation and multinucleation. Since the identification and cloning of receptor activator of nuclear factor kappa B ligand (RANKL), culturing primary osteoclasts in vitro has become much simplified. It has become apparent that the actin cytoskeleton is extremely important for the osteoclast, not only in terms of structural support, but also for adhesion, polarization, and migration. Rho family GTPases are key regulators of the actin cytoskeleton. In this chapter, we describe simple techniques in culturing primary osteoclasts from murine bone marrow cells, evaluating the activation states of Rho GTPases in osteoclasts, measuring the migratory abilities of monocytes, and introducing proteins of interest into osteoclasts using the TAT construct.
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PMID:Rho GTPase techniques in osteoclastogenesis. 2214 75

TAT-RasGAP(317-326), a peptide corresponding to the 317-326 sequence of p120 RasGAP coupled with a cell-permeable TAT-derived peptide, sensitizes the death response of various tumor cells to several anticancer treatments. We now report that this peptide is also able to increase cell adherence, prevent cell migration and inhibit matrix invasion. This is accompanied by a marked modification of the actin cytoskeleton and focal adhesion redistribution. Interestingly, integrins and the small Rho GTP-binding protein, which are well-characterized proteins modulating actin fibers, adhesion and migration, do not appear to be required for the pro-adhesive properties of TAT-RasGAP(317-326). In contrast, deleted in liver cancer-1, a tumor suppressor protein, the expression of which is often deregulated in cancer cells, was found to be required for TAT-RasGAP(317-326) to promote cell adherence and inhibit migration. These results show that TAT-RasGAP(317-326), besides its ability to favor tumor cell death, hampers cell migration and invasion.
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PMID:Inhibition of cell migration and invasion mediated by the TAT-RasGAP317-326 peptide requires the DLC1 tumor suppressor. 2421 69

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