Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.1.21 (thymidine kinase)
 7,561 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Recent evidence suggests that the human neuromuscular disorders, hyperkalemic periodic paralysis and paramyotonia congenita, are both caused by genetic defects in the alpha-subunit of the adult skeletal muscle sodium channel, which maps near the growth hormone cluster (GH) on Chromosome (Chr) 17q. In view of the extensive homology between this human chromosome and mouse Chr 11, we typed an interspecies backcross to determine whether the murine homolog (Scn4a) of this sodium channel gene mapped within the conserved chromosomal segment. The cytosolic thymidine kinase gene, Tk-1, was also positioned on the genetic map of Chr 11. Both Scn4a and Tk-1 showed clear linkage to mouse Chr 11 loci previously typed in this backcross, yielding the map order: TrJ-(Re, Hox-2, Krt-1)-Scn4a-Tk-1. No mouse mutant that could be considered a model of either hyperkalemic periodic paralysis or paramyotonia congenita has been mapped to the appropriate region of mouse Chr 11. These data incorporate an additional locus into the already considerable degree of homology observed for these human and mouse chromosomes. These data are also consistent with the view that the conserved segment region may extend to the telomere on mouse Chr 11 and on human 17q.
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PMID:The alpha-subunit of the skeletal muscle sodium channel is encoded proximal to Tk-1 on mouse chromosome 11. 135 60

Transient transfection experiments indicate that a 5'-flanking upstream domain, residing between -437 and -262 bp of the human dopamine beta-hydroxylase (DBH) gene, has a cell type-specific silencer function. This domain contains a putative silencer motif (which we designate DBH negative regulatory element, DNRE), showing sequence homology with the neural-restrictive silencer element (NRSE or RE-1) recently characterized in type II sodium channel, SCG10 and synapsin I genes. When the DNRE was placed at the proximal 262 bp of the homologous (DBH) promoter, it exhibited strong silencer activity both in DBH-expressing SK-N-BE(2)C as well as in DBH-nonexpressing HeLa cells. In addition, the DNRE also exhibited modest silencer activity upon a heterologous tk (herpes simplex virus thymidine kinase) promoter in both cell lines. Electrophoretic mobility shift assay demonstrated that nuclear extracts from both SK-N-BE(2)C and HeLa cells contain protein(s) that specifically bind to the DNRE. Formation of this DNRE/protein complex was specifically inhibited by an excess of unlabeled DNRE or NRSE. Finally, a similar sequence motif residing in the corresponding upstream area of the rat DBH gene also had a negative regulatory function, indicating that the silencer function of the DNRE is conserved in human and rat DBH genes.
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PMID:Identification of a negative regulatory element in the 5'-flanking region of the human dopamine beta-hydroxylase gene. 875 Aug 28

This paper reviews work by Yeomans and Wilson in the area of herpes vector-mediated gene transfer to sensory neurons. Beginning in 1997, these researchers have published a number of papers describing and exploiting this technology in altering the phenotype of pain-sensing neurons (nociceptors). Their initial work, continuing to the present, inserted a transgene cassette encoding the human preproenkephalin gene into the thymidine kinase locus under control of a cytomegalovirus promoter. This vector induced enkephalin expression selectively in the nociceptors innervating the tissue onto which it was applied, producing a profound analgesic and antihyperalgesic in acute and chronic pain models in both rodents and non-human primates. An improved version of this vector is now in clinical trials. In addition to inducing the de novo expression of foreign transgenes, this group also investigated the utility of herpes vectors in altering the endogenous genome of nociceptors. Thus, they inserted antisense sequences for genes of interest in the physiology of these neurons and successfully and selectively knocked down expression of several proteins known or thought to be involved in various pain states, including calcitonin gene-related peptide and mu-opioid receptors. They also used similar techniques to investigate the involvement of acid-sensing ion channels and Nav1.7 sodium channel in different pain states. These experiments uniquely allowed for spatially and temporally selective investigations into the function of these proteins in pain, highly valuable information in target validation for therapy development.
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PMID:Herpes virus-based recombinant herpes vectors: gene therapy for pain and molecular tool for pain science. 1922 46