UMLS:C0344329 - FACTA Search

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Aggrecan is one of the major chondroitin sulfate proteoglycans (CSPGs) expressed in the central nervous system. The signaling pathways activated downstream of cell interaction with aggrecan and with CSPGs in general and the importance of chondroitin sulfate-glycosaminoglycan side chains in their inhibition are unclear. Therefore, to analyze the effect of different components of aggrecan in inhibiting neurite growth, neurite outgrowth was quantified in an in vitro model in which chick dorsal root ganglion (DRG) explants were grown on substrates containing aggrecan bound to hyaluronan and link protein as a macromolecular aggregate, aggrecan monomers, hyaluronan, or ChABC-treated aggrecan. Aggrecan aggregate, aggrecan monomer, and hyaluronan inhibited neurite outgrowth from nerve growth factor (NGF)- and neurotrophin-3 (NT3)-responsive DRG neurons. Aggrecan inhibition was dependent on its chondroitin sulfate-glycosaminoglycans, as ChABC digestion alleviated neurite inhibition because of aggrecan. Growth cones displayed full or partial collapse on aggrecan aggregate, hyaluronan, and ChABC-treated aggrecan. Inhibition of Rho kinase (ROCK) with Y27632 increased neurite growth on some but not all of the aggrecan components tested. With NGF in the culture medium, Y27632 increased neurite outgrowth on aggrecan aggregate, monomers, and ChABC-treated aggrecan, but not on hyaluronan. The ROCK inhibitor also increased NT3-responsive outgrowth on aggrecan aggregate and hyaluronan, but not on ChABC-treated aggrecan. This study showed that the matrix proteoglycan aggrecan and its components have multiple effects on neurite outgrowth and that some of these effects involve the Rho/ROCK pathway.
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PMID:Aggrecan components differentially modulate nerve growth factor-responsive and neurotrophin-3-responsive dorsal root ganglion neurite growth. 1791 43

SH4 domains provide bipartite membrane-targeting signals for oncogenic Src family kinases. Here we report the induction of non-apoptotic plasma membrane (PM) blebbing as a novel and conserved activity of SH4 domains derived from the prototypic Src kinases Src, Fyn, Yes and Lck as well as the HASPB protein of Leishmania parasites. SH4-domain-induced blebbing is highly dynamic, with bleb formation and collapse displaying distinct kinetics. These reorganizations of the PM are controlled by Rho but not Rac or Cdc42 GTPase signalling pathways. SH4-induced membrane blebbing requires the membrane association of the SH4 domain, is regulated by the activities of Rock kinase and myosin II ATPase, and depends on the integrity of F-actin as well as microtubules. Endogenous Src kinase activity is crucial for PM blebbing in SH4-domain-expressing cells, active Src and Rock kinases are enriched in SH4-domain-induced PM blebs, and PM blebbing correlates with enhanced cell invasion in 3D matrices. These results establish a novel link between SH4 domains, Src activity and Rho signalling, and implicate SH4-domain-mediated PM dynamization as a mechanism that influences invasiveness of cells transformed by SH4-domain-containing oncoproteins.
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PMID:SH4-domain-induced plasma membrane dynamization promotes bleb-associated cell motility. 1795 30

Myocilin is a gene linked to the most common form of glaucoma, a major blinding disease. The trabecular meshwork (TM), a specialized eye tissue, is believed to be involved, at least in part, in the development of glaucoma. The myocilin expression is known to be up-regulated by glucocorticoids in TM cells, and an altered myocilin level may be the culprit in conditions such as corticosteroid glaucoma. Wild type myocilin, when transfected into cultured human TM cells, induced a dramatic loss of actin stress fibers and focal adhesions. Myocilin transfectants displayed a heightened sensitivity to trypsin. Adhesion to fibronectin, collagens, and vitronectin was compromised. The fibronectin deposition and the levels of fibronectin protein and mRNA were also reduced in myocilin transfectants. The fibronectin deposition could be restored by treatment with lysophosphatidic acid, a Rho stimulator. Assays further revealed that upon myocilin overexpression, the activity of RhoA was diminished, whereas the cAMP level and the protein kinase A (PKA) activity were augmented. Myocilin protein did not affect actin polymerization. The collapse of actin stress fibers and increased trypsin sensitivity from myocilin transfection could be reverted by co-expression of constitutively active RhoA or by treatment with PKA inhibitor H-89. The PKA activity, however, was not modified by co-expression of either constitutively active or dominant negative RhoA. These results demonstrate that myocilin has a de-adhesive activity and triggers signaling events. cAMP/PKA activation and the downstream Rho inhibition are possible mechanisms by which myocilin in overabundance may lead to TM cell or tissue damage.
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PMID:Rho GTPase and cAMP/protein kinase A signaling mediates myocilin-induced alterations in cultured human trabecular meshwork cells. 1798 96

Although myelin-associated neurite outgrowth inhibitors express their effects through RhoA/Rho-kinase, the downstream targets of Rho-kinase remain unknown. We examined the involvement of myosin II, which is one of the downstream targets of Rho-kinase, by using blebbistatin - a specific myosin II inhibitor - and small interfering RNA targeting two myosin II isoforms, namely, MIIA and MIIB. We found that neurite outgrowth inhibition by repulsive guidance molecule (RGMa) was mediated via myosin II, particularly MIIA, in cerebellar granule neurons. RGMa induced myosin light chain (MLC) phosphorylation by a Rho-kinase-dependent mechanism. After spinal cord injury in rats, phosphorylated MLC in axons around the lesion site was up-regulated, and this effect depends on Rho-kinase activity. Further, RGMa-induced F-actin reduction in growth cones and growth cone collapse were mediated by MIIA. We conclude that Rho-kinase-dependent activation of MIIA via MLC phosphorylation induces F-actin reduction and growth cone collapse and the subsequent neurite retraction/outgrowth inhibition triggered by RGMa.
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PMID:Myosin IIA is required for neurite outgrowth inhibition produced by repulsive guidance molecule. 1800 26

In the adult mammalian central nervous system (CNS), it is well known that injured axons exhibit very limited regeneration ability. Due to this lack of appropriate axonal regeneration, a traumatic damage to the adult brain and spinal cord frequently causes permanent neuronal deficits such as paralysis. Several axon growth inhibitors, including myelin-associated glycoprotein, Nogo, and oligodensrocyte myelin glycoprotein, in the CNS have been identified in the myelin. Receptor complex comprising of the Nogo receptor, the p75 receptor, and LINGO-1 transduces the signals from all of these inhibitors in vitro. Downstream of these inhibitors, activation of small GTPase RhoA and its effector Rho-kinase has been shown to be a key element for neurite growth inhibition and growth cone collapse elicited by these inhibitors. Consistent with these findings in vitro, inhibition of RhoA or Rho-kinase in vivo promotes axon growth and functional recovery after spinal cord injury. Recently, several developmental guidance proteins, including repulsive guidance molecules, semaphorin, and ephrin are suggested to be involved in axon growth inhibition after injury to the CNS. Thus, multiple axon growth inhibitors seem to contribute to inability of the injured axons to regenerate, and therapeutic strategy to block the multiple axon growth inhibitors may provide efficient tools that produce functional regeneration following injuries to the CNS. In addition, it is noted that synaptic plasticity in pre-existing pathways and the formation of new circuits through collateral sprouting of lesioned and unlesioned fibers are important components of the spontaneous recovery process. The molecular mechanism of this phenomenon is poorly understood, and elucidation of this will contribute to enhancement of functional recovery after incomplete injury to the CNS. I will summarize recent findings regarding these issues.
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PMID:[Molecular mechanism and regulation of axon growth inhibition]. 1809 84

The signal transduction pathways regulating growth cone motility remain poorly defined. Previously, we have characterized the inhibitory molecule, motuporamine C (MotC), as a robust stimulator of growth cone collapse. Utilizing MotC as a research tool to elucidate pathways involved with collapse, we have previously shown that the Rho-Rho kinase (ROCK) pathway is partially required for collapse. In this study, we report MotC induces a high-amplitude rise in intracellular free Ca(2+) concentration levels in chicks, resulting in the activation of the Ca(2+)-sensitive protease, calpain. Furthermore, we show that while calpain is necessary for collapse, inhibition of calpain only partially attenuates MotC-mediated collapse. Instead, concomitant inhibition of both the Rho-ROCK and calpain pathways has an additive effect in attenuating the collapse response to MotC. To our knowledge, this is the first demonstration of concurrent activation of calpain and Rho-ROCK signaling during growth cone collapse. Our data support a model of growth cone collapse that requires the combinatorial regulation of multiple signal transduction cascades that likely target different cellular mechanisms to induce this motile response.
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PMID:Growth cone collapse stimulated by both calpain- and Rho-mediated pathways. 1840 19

Rho-kinase is a leading player in the regulation of cytoskeletal events involving smooth muscle contraction and neurite growth-cone collapse and retraction, and is a promising drug target in the treatment of both vascular and neurological disorders. Recent crystal structure of Rho-kinase complexed with a small-molecule inhibitor fasudil has revealed structural details of the ATP-binding site, which represents the target site for the inhibitor, and showed that the conserved phenylalanine on the P-loop occupies the pocket, resulting in an increase of protein-ligand contacts. Thus, the P-loop pliability is considered to play an important role in inhibitor binding affinity and specificity. In this study, we carried out a molecular dynamic simulation for Rho-kinase-fasudil complexes with two different P-loop conformations, i.e., the extended and folded conformations, in order to understand the P-loop pliability and dynamics at atomic level. A PKA-fasudil complex was also used for comparison. In the MD simulation, the flip-flop movement of the P-loop conformation starting either from the extended or folded conformation was not able to be observed. However, a significant conformational change in a long loop region covering over the P-loop, and also alteration of ionic interaction-manner of fasudil with acidic residues in the ATP binding site were shown only in the Rho-kinase-fasudil complex with the extended P-loop conformation, while Rho-kinase with the folded P-loop conformation and PKA complexes did not show large fluctuations, suggesting that the Rho-kinase-fasudil complex with the extended P-loop conformation represents a meta-stable state. The information of the P-loop pliability at atomic level obtained in this study could provide valuable clues to designing potent and/or selective inhibitors for Rho-kinase.
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PMID:A molecular mechanism of P-loop pliability of Rho-kinase investigated by molecular dynamic simulation. 1841 22

Activation of the Rho kinase (ROCK) pathway has been associated with inhibition of neurite regeneration and outgrowth in spinal cord injury. Growth-inhibitory substances present in the glial scar such as chondroitin sulfate proteoglycans (CSPGs) have been shown to create a nonpermissive environment for axon regeneration that results in growth cone collapse. In this study, an in vitro model was developed in nerve growth factor-differentiated PC12 cells where the Rho/ROCK pathway was modulated by CSPG. CSPG elicited concentration-dependent inhibition of neurite outgrowth in PC12 cells, which was reversed by ROCK inhibitors such as fasudil, dimethylfasudil, and Y27632. Further studies on the interactions of CSPG with ROCK inhibitors revealed that the modulation of ROCK by CSPG is noncompetitive in nature. It was also observed that ROCK inhibitors increased neurite outgrowth in undifferentiated PC12 cells, indicating constitutive ROCK activity in the cells. Analysis of signaling pathways demonstrated that the effect of CSPG increases the phosphorylation of myosin phosphatase, a substrate immediately downstream of ROCK activation. Fasudil, dimethylfasudil, and Y27632 inhibited the phosphorylation of myosin phosphatase induced by CSPG with rank order potencies comparable to those observed in the neurite outgrowth assay. In addition, ROCK inhibitors reversed cofilin phosphorylation induced by CSPG with similar rank order potencies. Taken together, our data demonstrate that the interaction of CSPG with the ROCK pathway involves downstream effectors of ROCK such as myosin phosphatase and cofilin.
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PMID:Role of Rho kinase pathway in chondroitin sulfate proteoglycan-mediated inhibition of neurite outgrowth in PC12 cells. 1843 21

Apoptosis is a genetically programmed and physiological mode of cell death that leads to the removal of unwanted or abnormal cells. Cysteine-proteases called caspases are responsible for the apoptotic execution phase which is characterized by specific biochemical events as well as morphological changes. These changes, which lead to the orderly dismantling of the apoptotic cell, include cell contraction, dynamic membrane blebbing, chromatin condensation, nuclear disintegration, cell fragmentation followed by phagocytosis of the dying cell. They involve major modifications of the cytoskeleton which are largely mediated by cleavage of several of its components by caspases. For example, dynamic membrane blebbing is due to the increased contractility of the acto-myosin system following myosin light chain (MLC) phosphorylation. MLC phosphorylation is a consequence of the cleavage of a Rho GTPase effector, the kinase ROCK I, by caspase-3. This cleavage induces a constitutive kinase activity by removal of an inhibitory domain. Chromatin condensation is facilitated by the processing of lamins by caspases. Collapse of the cytokeratin network is mediated by cleavage of keratin 18. On another hand, the actin cytoskeleton rearrangement needed in the phagocyte for engulfment of the dying cell is due to the activation of the small GTPase Rac, a GTPase of the Rho family that induces actin polymerisation and formation of lamellipodia. In addition to mediating the morphological modifications of the apoptotic cell, several proteins of the cytoskeleton such as actin and keratins are also involved in the regulation of apoptotic signaling.
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PMID:Cytoskeleton and apoptosis. 1846 7

Many chemotherapy drugs are known to cause significant clinical neurotoxicity, which can result in the early cessation of treatment. To identify and develop more effective means of neuroprotection it is important to understand the toxicity of these drugs at the molecular and cellular levels. In the present study, we examine the effects of paclitaxel (taxol), cisplatin, and methotrexate on primary rat neurons including hippocampal, cortical, and dorsal horn/dorsal root ganglion neuronal cultures. We found that all of these anti-cancer drugs induce substantial neurotoxicity evidenced by neurite degeneration. The neurons are capable of recovering after treatment withdrawal, but taxol exerts a biphasic effect that results in the collapse of processes days after treatment is withdrawn. After cisplatin and methotrexate treatment, we observed the degeneration of neuronal processes including the reduction of dendritic branching, length, and altered growth cone formation, indicating an abnormal arrangement of the actin cytoskeleton consistent with the involvement of Rho family small GTPases. Inhibiting RhoA downstream effector p160 ROCK/Rho kinase using Y-27632, or activating p75 neurotrophin receptor (p75 NTR) using non-peptide mimetic LM11A-31, were able to reverse the degeneration caused by cisplatin and methotrexate. Therefore, the neurotoxicity resulting from exposure to the anti-cancer drugs cisplatin and methotrexate can be alleviated by inhibiting Rho signaling pathway.
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PMID:Anti-cancer drug induced neurotoxicity and identification of Rho pathway signaling modulators as potential neuroprotectants. 1853 32

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