Global ETD Search

31	The Role of Chloride Channels in Remote Ischemic Preconditioning of Ventricular Cardiomyocytes Harvey, Kordan 04 December 2012 (has links) Sarcolemmal chloride channels and associated cell volume regulatory pathways have been shown to be important in local ischemic preconditioning (IPC) induced protection against myocardial ischemia/reperfusion injury. Similarities between intracellular pathways in remote (rIPC) and classic IPC suggest that these mechanisms may also play an important role in rIPC. rIPC protected cultured rabbit ventricular cardiomyocytes against necrosis caused by 75 minutes simulated ischemia followed by 60 minutes simulated reperfusion. The protective effect was abolished by chloride channel blockade using 50 μM indanyloxyacetic acid 94 (IAA-94). rIPC also reduced peak cardiomyocyte swelling during exposure to 200 mOsm hypo-osmotic buffer. The reduction in peak swelling was also abolished by IAA-94. These results suggest that the protective effect of rIPC is achieved, at least in part, by enhancing cell volume regulation and that this effect is dependent on the availability of chloride channels in a similar fashion to local IPC. remote preconditioning cardiomyocytes chloride channels volume regulation IAA-94 0379
32	The Role of Chloride Channels in Remote Ischemic Preconditioning of Ventricular Cardiomyocytes Harvey, Kordan 04 December 2012 (has links) Sarcolemmal chloride channels and associated cell volume regulatory pathways have been shown to be important in local ischemic preconditioning (IPC) induced protection against myocardial ischemia/reperfusion injury. Similarities between intracellular pathways in remote (rIPC) and classic IPC suggest that these mechanisms may also play an important role in rIPC. rIPC protected cultured rabbit ventricular cardiomyocytes against necrosis caused by 75 minutes simulated ischemia followed by 60 minutes simulated reperfusion. The protective effect was abolished by chloride channel blockade using 50 μM indanyloxyacetic acid 94 (IAA-94). rIPC also reduced peak cardiomyocyte swelling during exposure to 200 mOsm hypo-osmotic buffer. The reduction in peak swelling was also abolished by IAA-94. These results suggest that the protective effect of rIPC is achieved, at least in part, by enhancing cell volume regulation and that this effect is dependent on the availability of chloride channels in a similar fashion to local IPC. remote preconditioning cardiomyocytes chloride channels volume regulation IAA-94 0379
33	Neural Regulation in Circular Smooth Muscle of Mouse Lower Esophageal Sphincter Zhang, Yong 30 January 2008 (has links) The lower esophageal sphincter (LES) is characterized by basal tone and appropriately timed neurogenic relaxation. The physiological mechanisms underlying these crucial LES functions remain poorly understood. The current studies were designed to characterize the electrophysiological properties and neural regulation of LES circular smooth muscle (CSM), and to determine whether interstitial cells of Cajal (ICC) play a role in neurotransmission. Conventional intracellular recordings were performed in CD1, nNOS knock-out, eNOS knock-out and W/Wv mutant mice. Mouse LES consists of “sling” and “clasp” smooth muscle, which were studied separately in CD1 mice. In subsequent studies of mutant mice and respective controls, only the clasp muscle was examined, Immunohistochemical c-Kit staining of ICC was performed in wild-type and W/Wv mutant mice that were first characterized electrophysiologically. The smooth muscle of the LES clasp and sling displayed unitary membrane potentials with a resting membrane potential (RMP) of ~ -43 mV. Spontaneous nifedipine-sensitive action potentials superimposed on the unitary potentials were usually recorded in the LES clasp, but not sling muscle. A monophasic inhibitory junction potential (IJP) was recorded in sling CSM, whereas a biphasic IJP consisting of an initial IJP, followed by long-lasting slow IJP (LSIJP) was recorded in clasp. Further pharmacological studies using control and various knockout mice suggest that: 1. the CSM of the mouse LES is innervated by cholinergic, nitrergic and purinergic nerves; 2. the LSIJP is mediated entirely by nitrergic nerves, whereas purinergic and nitrergic nerves produce the monophasic IJP in the LES sling and initial phase of biphasic IJP in the LES clasp; 3. Ca2+/CaM-kinase II is involved in the regulation of the nitrergic IJPs; 4. TREK-1 K+ channels are not involved in the nitrergic IJP; 5. purinergic and cholinergic neurotransmission is intact in LES CSM of W/Wv mutant mice, whereas nitrergic neurotransmission is impaired in about half of the animals. In animals in which nitrergic neurotransmission was intact, ICC-IM were markedly deficient immunohistologically, suggesting that ICC are not required for nitrergic neurotransmission; 6. impaired nitrergic neurotransmission in W/Wv mutant mice is associated with dysfunction of a Ca2+-dependent signaling cascade primed by spontaneous Ca2+ release from the sarcoplasmic reticulum. / Thesis (Ph.D, Physiology) -- Queen's University, 2008-01-24 15:54:52.175 Murine Neurotransmitter Smooth Muscle Interstitial Cells of Cajal Neurotransmission Chloride Channels
34	Genetics of avermectin resistance in the nematode parasite Haemonchus contortus Levitt, Nancy January 2004 (has links) The objectives of this study are to estimate the degree to which a glutamate-gated chloride channel gene (HcGluCla) contributes to survival of moxidectin treatment and to study the relative dominance of those alleles. The phenotype of individual adult H. contortus with respect to feeding was determined using an inulin uptake assay. Genotype was determined using a diagnostic PCR assay. In the absence of moxidectin, homozygous susceptible genotypes fed significantly more than homozygous resistant genotypes. The effect of the susceptible allele was dominant. In the presence of moxidectin, feeding in the susceptible homozygotes was reduced to the level found in the resistant homozygotes, which were unaffected by the drug. These results suggest that the function of the two alleles is different and that they also respond differently to the drug, the resistant allele being unaffected by the drug. / The selection coefficient, s, is the selective difference between the resistant and susceptible genotypes with regard to feeding. Parasites with the resistant allele were seen to feed less in the absence of the drug, i.e., the effect is recessive. In the presence of the drug, there was no difference between resistant and susceptible parasite feeding. These results suggest that resistance may have hidden complexities. (Abstract shortened by UMI.) Avermectins. Anthelmintics. Chloride channels. Drug resistance.
35	The mechanism of Ivermectin-induced cytotoxicity in C. elegans / Kaul, Aamna January 2004 (has links) The anti-nematodal drug ivermectin hyperactivates invertebrate-specific glutamate-gated chloride channels (GluCls) causing pharyngeal paralysis and a cessation of feeding and growth. I find that for C. elegans even brief exposure to ivermectin can lead to irreversible pharyngeal paralysis. Ivermectin induces heterogeneous vacuolation in the pharynx that appears slowly and accumulates over several days. This vacuolation is almost completely rescued by a mutation in avr-15, which codes for the alpha-subunit of pharyngeal GluCls. The vacuoles stain strongly with Lysotracker Red and are therefore likely to be acidic compartments of the endosomal-lysosomal system. Examination of mutants defective for endocytosis (rme-1, rme-8, and cup-5) uncovers the presence of acidic vacuoles identical in appearance to ivermectin-induced vacuoles. Further, RME-1, a marker for recycling endosomes, is shown to redistribute soon after ivermectin exposure. Examination of the effects of ivermectin on extrapharyngeal neurons expressing ectopic avr-15 reveals an apoptotic phenotype that is shown to be ced-independent. Chloride channels Ivermectin Drug resistance
36	Putative glutamate-gated chloride channels from Onchocerca volvulus Halstead, Meredith January 2002 (has links) Onchocerca volvulus, a filarial nematode, is the causative agent of onchocerciasis. / O. volvulus is a human parasite with no animal model host and is endemic in the tropics. O. volvulus material is scarce and must be conserved as part of the Onchocerciasis Control Program. A genomic library was constructed to provide a substantial source of renewable genetic material, in place of original parasite DNA. / Currently there is only one glutamate-gated chloride channel that has been sequenced from O. volvulus, but this has not yet been characterized. This GluClx partial cDNA sequence isolated by Cully et al., 1997, may be found in GenBank, accession number U59745. Specific primers were designed to amplify this gene from the genomic library. A fragment of this gene was isolated but the primers were non-specific, amplifying genes in addition to GluClx. / A motif is a short recognition sequence within a protein that may allow the modification of the protein. The cysteine loop in the N-terminal of all the ligand-gated ion channels is interesting because it contains the neurotransmitter-gated ion channel signature sequence. (Abstract shortened by UMI.) Onchocerca volvulus. Chloride channels. Onchocerciasis. Ivermectin. Drug resistance.
37	Over-expression of the potassium-chloride co-transporter KCC2 in developing zebrafish Reynolds, Annie, 1978- January 2006 (has links) In embryonic neurons, the intracellular chloride concentration is elevated, making GABA and glycine depolarizing. Later in development, coincident with neuronal maturation, the extruding potassium-chloride co-transporter KCC2 is expressed. It reverses the chloride gradient, rendering it hyperpolarizing. Early depolarization is assumed to play trophic roles during nervous system development. I thus decided to investigate the effects of the depolarizing chloride gradient on development in vivo in the zebrafish embryo. I first determined the temporal pattern of KCC2 expression in zebrafish and found it was absent in the embryo. I then over-expressed wild-type, gain-of-function and loss-of-function variants of human KCC2, using GFP-tagged constructs for detection purposes. Over-expression of functional hKCC2 perturbed the morphology and motor behaviours of the embryos. At the cellular level, KCC2 impaired axonal growth and affected the neuronal populations in the brain, hindbrain and spinal cord. This suggests the depolarizing effects of glycine are critical for neurogenesis. Zebra danio -- Development. Carrier proteins. Potassium channels. Chloride channels. Symporters.
38	Genomic organization and expression of an avermectin receptor subunit from Haemonchus contortus Liu, Jie, 1970- January 2003 (has links) Avermectins and milbemycins are believed to exert their anthelmintic effects by binding to glutamate-gated chloride channels (GluCls). Two GluCl subunits have been localized in the pharynx in Caenorhabditis elegans , and the pharynx has been implicated as a major target for avermectins in C. elegans. The HcGluCla gene encoding an alpha-type GluCl subunit has been cloned from Haemonchus contortus previously, however the localization of this gene has not been identified. To begin to investigate the expression site of this HcGluCla gene we have isolated a 1439bp 5'-flanking region and the entire genomic organization of this gene. The 1439bp 5'-flanking region and the first exon and intron and part of the second exon of the HcGluCla gene were fused to the green fluorescent protein reporter gene and microinjected into the gonads of C. elegans. After microinjection of the construct into C. elegans, four stable transformed lines were established and assayed for GFP expression. The transformed animals exhibited fluorescence in the two pairs of MC and M2 pharyngeal neurons, but no expression was detected in the muscle cells. This result provides evidence that the pharynx is a major site for the mode of action of avermectins and milbemycins on parasitic nematodes, such as H. contortus. Avermectins. Anthelmintics. Chloride channels.
39	A comparison of laboratory and field resistance to macrocyclic lactones in Haemonchus contortus / Galazzo, Daniel January 2004 (has links) Sustainable parasite control in livestock depends on anthelmintic drugs. The nematode Haemonchus contortus, the most important intestinal parasite of sheep and goats has developed resistance to all classes of anthelmintics including moxidectin, the most potent of the macrocyclic lactones. Pyrosequencing was used to screen H. contortus laboratory and field strains for single nucleotide polymorphisms (SNPs) associated with resistance in three genes, and determine their involvement in field resistance to macrocyclic lactones. Specific SNPs increased in frequency in ivermectin/moxidectin laboratory selected strains for all three genes. These did not protect a resistant field strain from a field dose of ivermectin and were not the major mechanism of resistance in the field strain. A gamma-aminobutyric acid chloride receptor SNP may be a potential marker for moxidectin resistance in the field. This study indicates results obtained from laboratory strains selected with sub-therapeutic doses of drug may not reflect the situation in the field. Avermectins. Anthelmintics. Chloride channels. Drug resistance.
40	Mechanisms of anthelmintic resistance in Cooperia oncophora, a nematode parasite of cattle Njue, Annette Igandu January 2003 (has links) Anthelmintic resistance is a major problem in livestock, and while it has been slower to emerge in cattle, there are reports of its occurrence. Three broad-spectrum anthelmintics are available for use, and one mechanism of resistance that is common to all is target site alteration. Glutamate-gated chloride channels (GluCls) are an important target for macrocyclic lactone anthelmintics (MLs), while beta-tubulin represents the benzimidazole (BZ) target. The objectives of this thesis were to determine whether GluCls are involved in ML resistance in the cattle parasite Cooperia oncophora , and whether beta-tubulin is involved in BZ and ML resistance. Two isolates of C. oncophora were used. In a fecal egg-count reduction test, ivermectin was found to be 100% effective against one isolate (IVS), and only 77.8% effective against the second isolate (IVR). Two full-length GluCl cDNAs, encoding GluClalpha3 and beta subunits, were cloned. These subunits share high sequence identity with similar GluCl subunits from Haemonchus contortus and Caenorhabditis elegans. Genetic variability analysis of the two genes showed significant differences in allele frequencies between IVS and IVR worms at the GluClalpha3 gene, but not the GluClbeta gene, suggesting that the GluClalpha3 gene is involved in ivermectin resistance. Sequencing of full-length GluCl subunit cDNAs from IVS and IVR worms revealed the presence of mutations in the N-terminal domains. Mutations in the GluClalpha3 caused modest but significant reductions in glutamate, ivermectin and moxidectin sensitivity, while mutations in the GluClbeta abolished glutamate sensitivity. Of the three mutations identified in the IVR GluClalpha3, the L256F mutation accounted for the difference in glutamate and ivermectin response between IVS and IVR GluClalpha3 channels. Two beta-tubulin isotypes cloned from C. oncophora were found to share a high homology with beta-tubulin isotypes from other trichostrongylids. Gen Cooperia. Drug resistance. Anthelmintics. Ivermectin. Chloride channels. Cattle -- Parasites.

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