首页 | 本学科首页   官方微博 | 高级检索  
相似文献
 共查询到20条相似文献,搜索用时 15 毫秒
1.
2.
Polymorphisms in the gene encoding the heavy chain of myosin IXb (Myo9b) have been linked to several forms of inflammatory bowel disease (IBD). Given that Myo9b contains a RhoGTPase-activating protein domain within its tail, it may play key roles in Rho-mediated actin cytoskeletal modifications critical to intestinal barrier function. In wounded monolayers of the intestinal epithelial cell line Caco2(BBe) (BBe), Myo9b localizes to the extreme leading edge of lamellipodia of migrating cells. BBe cells exhibiting loss of Myo9b expression with RNA interference or Myo9b C-terminal dominant-negative (DN) tail-tip expression lack lamellipodia, fail to migrate into the wound, and form stress fiber-like arrays of actin at the free edges of cells facing the wound. These cells also exhibit disruption of tight junction (TJ) protein localization, including ZO-1, occludin, and claudin-1. Torsional motility and junctional permeability to dextran are greatly increased in cells expressing DN-tail-tip. Of interest, this effect is propagated to neighboring cells. Consistent with a role for Myo9b in regulating levels of active Rho, localization of both RhoGTP and myosin light chain phosphorylation corresponds to Myo9b-knockdown regions of BBe monolayers. These data reveal critical roles for Myo9b during epithelial wound healing and maintenance of TJ integrity-key functions that may be altered in patients with Myo9b-linked IBD.  相似文献   

3.
We have investigated, by RT-PCR and in situ hybridization, expression of genes encoding regulatory and structural proteins in migrating mononucleated striated muscle cells of the medusa Podocoryne carnea. Expression of the three homeobox genes Otx, Cnox1-Pc, and Cnox3-Pc; a specific splice variant of the myosin heavy chain gene (Myo1); and a tropomyosin (Tpm2) is stable in isolated and cultured striated muscle tissue. When grafted onto cell-free extracellular matrix (ECM), muscle cells of the tissue fragments leave their native ECM and migrate as a coherent tissue onto a host ECM until a stretched cell monolayer is formed. Shortly after the first cells of the grafted isolate have made contact with the host ECM, Otx and Cnox1-Pc expression is completely turned off in all cells of the graft, including those still adhering to their native ECM. Myo1 message disappears with a delay while the expression level of Tpm2 is strongly reduced. However, expression of the homeobox gene Cnox3-Pc, a msh-like gene, and of the ubiquitously expressed elongation factor 1 alpha is not affected by the migration process. All genes are reexpressed after 12-24 h, once migration of the cells has ceased. Our results demonstrate that the first few migrating cells induce a change in gene expression which is rapidly communicated throughout the entire tissue. Furthermore, we showed that commitment of striated muscle cells remains stable despite the transient inactivation of cell-type-specific regulatory and structural genes.  相似文献   

4.
5.
Somatic electromotility in cochlear outer hair cells, as the basis for cochlear amplification, is a mammalian novelty and it is largely dependent upon rapid cell length changes proposed to be mediated by the motor-protein prestin, a member of the solute carrier anion-transport family 26. Thus, one might predict that prestin has specifically evolved in mammals to support this unique mammalian adaptation. Using codon-based likelihood models we found evidences for positive selection in the motor-protein prestin only in the mammalian lineage, supporting the hypothesis that lineage-specific adaptation-driven molecular changes endowed prestin with the ability to mediate somatic electromotility. Moreover, signatures of positive selection were found on the alpha10, but not the alpha9, nicotinic cholinergic receptor subunits. An alpha9alpha10-containing nicotinic cholinergic receptor mediates inhibitory olivocochlear efferent effects on hair cells across vertebrates. Our results suggest that evolution-driven modifications of the alpha10 subunit probably allowed the alpha9alpha10 heteromeric receptor to serve a differential function in the mammalian cochlea. Thus, we describe for the first time at the molecular level signatures of adaptive evolution in two outer hair cell proteins only in the lineage leading to mammals. This finding is most likely related with the roles these proteins play in somatic electromotility and/or its fine tuning.  相似文献   

6.
The mature hair follicle undergoes a unique developmental cycle, in which phases of growth are interspersed with phases of involution and rest. The main effectors of this cycle are skin epithelial stem cells that reside in a specialized compartment of the follicle. Defects in this cycle, or in the structure of the hair produced, often result in alopecia (partial or complete hair loss), a condition that affects a significant fraction of the population. Here we discuss transgenic mouse models that exhibit alopecia as a primary phenotype, resulting from the inactivation of genes encoding structural proteins.  相似文献   

7.
8.
9.
We have developed a bacterial artificial chromosome transgenesis approach that allowed the expression of myosin VIIa from the mouse X chromosome. We demonstrated the complementation of the Myo7a null mutant phenotype producing a fine mosaic of two types of sensory hair cells within inner ear epithelia of hemizygous transgenic females due to X inactivation. Direct comparisons between neighboring auditory hair cells that were different only with respect to myosin VIIa expression revealed that mutant stereocilia are significantly longer than those of their complemented counterparts. Myosin VIIa-deficient hair cells showed an abnormally persistent tip localization of whirlin, a protein directly linked to elongation of stereocilia, in stereocilia. Furthermore, myosin VIIa localized at the tips of all abnormally short stereocilia of mice deficient for either myosin XVa or whirlin. Our results strongly suggest that myosin VIIa regulates the establishment of a setpoint for stereocilium heights, and this novel role may influence their normal staircase-like arrangement within a bundle.  相似文献   

10.
11.
12.
Mechanosensitive and voltage-gated ion channels are known to perform important roles in mechanotransduction in a number of connective tissues, including bone and muscle. It is hypothesized that voltage-gated and mechanosensitive ion channels also may play a key role in some or all initial responses of human tenocytes to mechanical stimulation. However, to date there has been no direct investigation of ion channel expression by human tenocytes. Human tenocytes were cultured from patellar tendon samples harvested from five patients undergoing routine total knee replacement surgery (mean age: 66 yr; range: 63-73 yr). RT-PCR, Western blotting, and whole cell electrophysiological studies were performed to investigate the expression of different classes of ion channels within tenocytes. Human tenocytes expressed mRNA and protein encoding voltage-operated calcium channel (VOCC) subunits (Ca alpha(1A), Ca alpha(1C), Ca alpha(1D), Ca alpha(2)delta(1)) and the mechanosensitive tandem pore domain potassium channel (2PK(+)) TREK-1. They exhibit whole cell currents consistent with the functional expression of these channels. In addition, other ionic currents were detected within tenocytes consistent with the expression of a diverse array of other ion channels. VOCCs and TREK channels have been implicated in mechanotransduction signaling pathways in numerous connective tissue cell types. These mechanisms may be present in human tenocytes. In addition, human tenocytes may express other channel currents. Ion channels may represent potential targets for the pharmacological management of chronic tendinopathies.  相似文献   

13.
The alpha9 and alpha10 nicotinic acetylcholine receptor (nAChR) subunits assemble to form the alpha9alpha10 nAChR subtype. This receptor is believed to mediate cholinergic synaptic transmission between efferent olivocochlear fibers and the hair cells of the cochlea. In addition alpha9 and/or alpha10 expression has been described in dorsal root ganglion neurons, lymphocytes, skin keratinocytes, and the pars tuberalis of the pituitary. Specific antagonists that selectively block the alpha9alpha10 channel could be valuable tools for elucidating its role in these diverse tissues. This study describes a novel alpha-conotoxin from the Western Atlantic species Conus regius, alpha-conotoxin RgIA (alpha-RgIA), that is a subtype specific blocker of the alpha9alpha10 nAChR. alpha-RgIA belongs to the alpha4/3 subfamily of the alpha-conotoxin family; sequence and subtype specificity comparisons between alpha-RgIA and previously characterized alpha4/3 toxins indicate that the amino acids in the C-terminal half of alpha-RgIA are responsible for its preferential inhibition of the alpha9alpha10 nAChR subtype.  相似文献   

14.
The central nervous system provides feedback regulation at several points within the peripheral auditory apparatus. One component of that feedback is inhibition of cochlear hair cells by release of acetylcholine (ACh) from efferent brainstem neurons. The mechanism of hair cell inhibition, and the character of the presumed cholinergic receptor, however, have eluded understanding. Both nicotinic and muscarinic, as well as some non-cholinergic ligands can affect the efferent action. We have made whole-cell, tight-seal recordings from short (outer) hair cells isolated from the chick's cochlea. These are the principal targets of cochlear efferents in birds. ACh hyperpolarizes short hair cells by opening a cation channel through which Ca2+ enters the cell and subsequently activates Ca(2+)-dependent K+ current (Fuchs & Murrow 1991, 1992). Both curare and atropine are effective-antagonists of cholinergic inhibition at 3 microM, whereas trimethaphan camsylate and strychnine block at 1 microM. The normally irreversible nicotinic antagonist, alpha-bungarotoxin, reversibly blocked the hair cell response, as did kappa-bungarotoxin. The half-blocking concentration for alpha-bungarotoxin was 26 nM. It is proposed that the hair cell AChR is a ligand-gated cation channel related to the nicotinic receptor of nerve and muscle.  相似文献   

15.
The piwi family genes are highly conserved during evolution and play essential roles in stem cell self-renewal, gametogenesis, and RNA interference in diverse organisms ranging from Arabidopsis to human. Piwil2, known also as Mili gene, is one of three mouse homologues of piwi. Piwil2 was found in germ cells of adult testis, suggesting that this gene functions in spermatogonial stem cell self-renewal. In order to find molecular mechanisms underlying stem cell activity mediated by Piwil2 gene, an in vitro gain of function cell culture model was established. Messenger RNAs isolated from cells expressing Piwil2 and mRNAs isolated from cells without Piwil2 expression were compared using a stem cell array technique. It was shown that Piwil2 modulates expression of stem cell specific genes, including platelet-derived growth factor receptor, beta polypeptide (Pdgfrb), solute carrier family 2 member 1 (Slc2a1), gap junction membrane channel protein alpha 7 (Gja7), and spermatogonial cell surface markers Thy-1 (CD90), integrin alpha 6 (Itga6), CD9, and spermatogonia specific markers heat shock protein 90 alpha (Hsp90a), and stimulated by retinoic acid gene 8 (Stra8). These molecules play essential role in stem cells proliferation (Pdgfrb), energy metabolism (Slc2a1), cell adhesion, cell-cell interaction (Itga6, Gja7, Thy-1, and CD9), and germ cell differentiation (Stra8). The expression of these markers in spermatogonial stem cells and other nongerminal stem cells suggests that these cells share elements of common molecular machinery with stem cells in other tissues which are modulated by stem cell protein Piwil2.  相似文献   

16.
17.
Neuronal migration and growth cone motility are essential aspects of the development and maturation of the nervous system. These cellular events result from dynamic changes in the organization and function of the cytoskeleton, in part due to the activity of cytoskeletal motor proteins such as myosins. Although specific myosins such as Myo2 (conventional or muscle myosin), Myo1, and Myo5 have been well characterized for roles in cell motility, the roles of the majority of unconventional (other than Myo2) myosins in cell motility events have not been investigated. To address this issue, we have undertaken an analysis of unconventional myosins in zebrafish, a premier model for studying cellular and growth cone motility in the vertebrate nervous system. We describe the characterization and expression patterns of several members of the unconventional myosin gene family. Based on available genomic sequence data, we identified 18 unconventional myosin- and 4 Myo2-related genes in the zebrafish genome in addition to previously characterized myosin (1, 2, 3, 5, 6, 7) genes. Phylogenetic analyses indicate that these genes can be grouped into existing classifications for unconventional myosins from mouse and man. In situ hybridization analyses using EST probes for 18 of the 22 identified genes indicate that 11/18 genes are expressed in a restricted fashion in the zebrafish embryo. Specific myosins are expressed in particular neuronal or neuroepithelial cell types in the developing zebrafish nervous system, spanning the periods of neuronal differentiation and migration, and of growth cone guidance and motility.  相似文献   

18.
Phospholipase Cδ3 (PLCδ3) is a key enzyme in phosphoinositide metabolism, however, its physiological function remains unknown. Here we identified the Myosin VI (Myo6) as a binding partner of the PLCδ3. A tail region containing IQ motif and the cargo-binding domain of Myo6, and the C2 domain and PH domain of PLCδ3 were responsible sites for the interaction. Since Myo6 has been well analyzed as one of the "deafness genes" in mouse and human, we examined the expression pattern of PLCδ3 mRNA in the inner ear. In situ hybridization analysis indicated that both Myo6 and PLCδ3 were clearly and limitedly co-expressed in the inner and outer hair cells in the cochlea. Although actin structure of the stereocilia of hair cells seemed to be normal and no detectable hearing defect was observed in PLCδ3 knockout (KO) mice, stable PLCδ3 knockdown in Caco-2 colonic carcinoma cells caused abnormal actin structure of microvilli. In addition, dramatic decrease in expression of Myo6 was observed in intestine of PLCδ3KO mice, where microvilli structure is well developed. These results indicate that PLCδ3 could participate in stability of microvilli structure via regulating and anchoring of Myo6 to plasma membrane.  相似文献   

19.
Multigene families encoding class XI myosins are conserved in higher plants, however, little information is available on specific functions of these ubiquitous molecular motors. We isolated gene knockout mutants for all 13 class XI myosins present in Arabidopsis (Arabidopsis thaliana) genome. Inactivation of 11 myosin genes resulted in no discernible phenotypes under the normal growth conditions. In contrast, the knockouts of the remaining two myosin genes, XI-2 (formerly MYA2) and XI-K, exhibited similar defects in root hair elongation suggesting that the myosin-driven motility plays a significant role in a polar tip growth. Strikingly, inactivation of each of these myosins also reduced trafficking of Golgi stacks, peroxisomes, and mitochondria in root hairs and in leaf epidermal cells. These results indicate that myosins XI-K and XI-2 play major and overlapping roles in the cell dynamics in Arabidopsis and highlight the redundant nature of myosin function in plants.  相似文献   

20.
设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号