Gene/Protein Disease Symptom Drug Enzyme Compound
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Myotonic dystrophy 1 (DM1) is the most common inherited neuromuscular disease in adults. The disorder, characterized by myotonia, muscle wasting and weakness, cataract, insulin resistance, and mental impairment, is caused by the expansion of an unstable CTG repeat located in the 3' untranslated region of DMPK. The repeat expansion suppresses the expression of the homeobox gene SIX5. We describe here an experimental system to identify downstream transcriptional targets of mouse Six5 in order to elucidate the role of SIX5 in the pathogenesis of DM1 and development. By overexpressing a constitutively active Six5 (VP16-Six5wt) using adenovirus-mediated gene transfer in P19 cells and subsequent expression profiling using cDNA arrays, 21 genes, whose expression level increased by the treatment, were identified as potential target genes. Genes expressed in the somites, skeletal muscles, brain and meninges comprised the majority, suggesting the role of Six5 in the development and function of mesodermal tissues and brain. We provide evidence that Igfbp5 encoding a component of IGF signaling is a direct Six5-target. Moreover, the overall expression level of Igfbp5 was decreased in Six5-deficient mouse fibroblasts, and the response of human IGFBP5 to MyoD-induced muscle conversion was altered in cells of DM1 patients. Our results not only identify Six5 as an activator that directs Igfbp5 expression but also suggest that reduced SIX5 expression in DM1 might contribute to specific aspects of the DM1 phenotype.
Hum Mol Genet 2002 May 01
PMID:Identification of transcriptional targets for Six5: implication for the pathogenesis of myotonic dystrophy type 1. 1197 64

We present the current knowledge on the genetic and phenotypic aspects of mitochondrial DNA depletion syndromes. The human mitochondrial DNA encodes 13 of the 82 structural proteins of the mitochondrial electron transport chain. The replication and maintenance of the mtDNA require a large number of nuclear encoded enzymes and balanced nucleotide pools. Mitochondrial nucleotide synthesis is of major importance because of the constant need for nucleotides for mtDNA maintenance even in quiescent cells. As de novo enzymes are not present in the mitochondria, synthesis is accomplished via the salvage pathway. Defective mtDNA synthesis and maintenance manifest by multiple deletions or by depletion of the mitochondrial genome. Patients with multiple deletions typically present with progressive external ophthalmoplegia, ptosis and, exercise intolerance after the first decade of life. mtDNA depletion is usually an infantile disease characterized by severe muscle weakness, hepatic failure, or renal tubulopathy with fatal outcome. Linkage analysis in families with multiple mtDNA deletions reveal mutations in proteins that participate in mtDNA replication, the mitochondrial DNA polymerase gene, and the Twinkle gene, a putative mitochondrial helicase and in factors which play a role in mitochondrial nucleotide metabolism, the adenine nucleotide translocator, and the thymidine phosphorylase gene. We have recently identified mutations in an additional two essential proteins in the nucleotide salvage pathway, the mitochondrial deoxyribonucleoside kinases. The phenotype was distinctive for each gene, with hepatic failure and encephalopathy associated with mutations in the deoxyguanosine kinase gene and isolated devastating myopathy as the sole manifestation of thymidine kinase 2 deficiency. The tissue selectivity of these disorders and especially the exclusive muscle involvement in thymidine kinase 2 mutations is puzzling. The normal sequence of the remaining mtDNA copies in spite of a serious mitochondrial nucleotide imbalance is also unexpected. We propose several tissue-specific protective mechanisms and a time window, likely encompassing fetal life and even early infancy, during which nuclear nucleotide synthesis provides mitochondrial needs in all organs. We also speculate on future genes to be discovered in other phenotypes of mtDNA depletion.
J Mol Med (Berl) 2002 Jul
PMID:Depletion of the other genome-mitochondrial DNA depletion syndromes in humans. 1211 Sep 44

Spinal and bulbar muscular atrophy (SBMA) is an adult-onset motor neuron disease, caused by the expansion of a trinucleotide repeat (TNR) in exon 1 of the androgen receptor (AR) gene. This disorder is characterized by degeneration of motor and sensory neurons, proximal muscular atrophy, and endocrine abnormalities, such as gynecomastia and reduced fertility. We describe the development of a transgenic model of SBMA expressing a full-length human AR (hAR) cDNA carrying 65 (AR(65)) or 120 CAG repeats (AR(120)), with widespread expression driven by the cytomegalovirus promoter. Mice carrying the AR(120) transgene displayed behavioral and motor dysfunction, while mice carrying 65 CAG repeats showed a mild phenotype. Progressive muscle weakness and atrophy was observed in AR(120) mice and was associated with the loss of alpha-motor neurons in the spinal cord. There was no evidence of neurodegeneration in other brain structures. Motor dysfunction was observed in both male and female animals, showing that in SBMA the polyglutamine repeat expansion causes a dominant gain-of-function mutation in the AR. The male mice displayed a progressive reduction in sperm production consistent with testis defects reported in human patients. These mice represent the first model to reproduce the key features of SBMA, making them a useful resource for characterizing disease progression, and for testing therapeutic strategies for both polyglutamine and motor neuron diseases.
Hum Mol Genet 2002 Sep 01
PMID:A mouse model of spinal and bulbar muscular atrophy. 1218 62

Behcet's disease is a multisystem vasculitis. Its neurologic complications include different syndromes. The purpose of this investigation was to study the prevalence of neurologic manifestations among patients with Behcet's disease and to determine the frequency of different symptoms, signs, and syndromes in neuro-Behcet's disease. Ninety-six consecutive patients who were referred to the Behcet's Disease Clinic in Shiraz (southern Iran) were interviewed and thoroughly examined. Psychiatric evaluation, CSF analysis, electroencephalography, electrodiagnostic studies, and neuroradiologic imaging (preferably MRI) were performed in appropriate cases. Six patients (6.3%) had definite neuro-Behcet's disease. They were 4 males and 2 females (mean age 37.5 years). In 2 patients Behcet's disease had not been diagnosed before. The most frequent symptoms of neuro-Behcet's disease were headache (83.3%), paresthesia (83.3%), unsteadiness (66.7%), diplopia (66.7%), and weakness (50%). The most frequent signs were gait abnormalities (66.7%), sensory abnormalities (66.7%), ophthalmoplegia (50%), cerebellar ataxia (50%), and hemiplegia (50%). The most common syndrome was brain-stem+ type (50%). Subacute onset and relapsing-remitting course were the most common temporal patterns. Neurological manifestation is a relatively less frequent complication of Behcet's disease but it produces severe disabilities. It must be considered in differential diagnosis of multiple sclerosis.
Exp Mol Pathol 2003 Feb
PMID:Neuro-Behcet's disease: a masquerader of multiple sclerosis. A prospective study of neurologic manifestations of Behcet's disease in 96 Iranian patients. 1264 28

A body of experimental evidence indicates that transcription and/or mRNA processing factors interacting with the polyglutamine disease gene products play crucial roles in the pathology. PQBP-1 is one of these factors and it has been shown to interact with the spinocerebellar ataxia type-1 (SCA1) disease gene product, ataxin-1. Our previous data suggested that relatively high expression of PQBP-1 in the cerebellum might explain the selective neuronal degeneration of SCA1. To further test whether PQBP-1 expression level regulates neuronal death, we generated transgenic mice of human PQBP-1 driven by a regulatory element for ubiquitous gene expression. The mice showed a late-onset and gradually progressive motor neuron disease-like phenotype, which might be related to neurogenic muscular atrophy observed in SCA1 patients. Ataxia could not be discriminated from predominant progressive weakness. Pathological examinations of the transgenic mice revealed loss of Purkinje and granular cells in the cerebellum as well as that of spinal motor neurons, corresponding to the pathology of human SCA1. These findings show that excessive action of PQBP-1 causes neuronal dysfunction and support PQBP-1 being involved in the pathology of SCA1.
Hum Mol Genet 2003 Apr 01
PMID:PQBP-1 transgenic mice show a late-onset motor neuron disease-like phenotype. 1265 67

Replacement of a CH in (CH3)4N+ by a CO2- group raises rho from 0.012 to 0.034 for symmetric N-C stretching and from ca. 0.026 to 0.031 for all-in-phase methyl C-H stretching. rho for antisymmetric C-H stretching and CH3 bending remains in the 0.73-0.75 range. No significant effect on rho attributable to the failure of solvation sheath symmetry to match the symmetry of the solute molecule is seen either near rho=0 or near p=3/4. The drastic change in charge distribution on going from cation to zwitterion, too, does not cause a major change near rho=0. Corroborative evidence of weakness of interaction between most surrounding D2O molecules and the Me3N+ portion of the zwitterion, derived from the O-D stretching region of the Raman spectrum, and implying the absence of symmetry in the solvation sheath, is discussed in Appendix A.
Spectrochim Acta A Mol Biomol Spectrosc 2003 May
PMID:Effects of modification of molecular structure on Raman spectral depolarization ratios: aqueous betaine (CH3)3NCH2CO2*29D2O versus (CH3)4NBr*29D2O. 1271 69

We report the first splice junction mutation to be described in the carnitine palmitoyltransferase (CPT) 2 gene in a patient with the muscle form of CPT II deficiency. The patient, a 25-year-old man, suffered from attacks of myalgia and muscle weakness in early adult life. There was biochemical evidence of CPT II deficiency. Molecular genetic analysis revealed the common S113L mutation on one allele whilst a novel mutation at the splice donor junction in intron 3 was identified on the other allele. Sequencing of reverse transcription polymerase chain reaction (RT-PCR) products clearly demonstrated that this mutation causes the skipping of exon 3, thus establishing its pathogenic role.
Mol Genet Metab 2003 Jun
PMID:A splice junction mutation in muscle carnitine palmitoyltransferase II deficiency. 1280 43

The disturbance of the central nervous system and immunological abnormalities have been suggested in patients with chronic fatigue syndrome (CFS). We focused on immunological abnormalities against neurotransmitter receptors in CFS. Using a sensitive radioligand assay, we examined serum autoantibodies to recombinant human muscarinic cholinergic receptor 1 (CHRM1), mu-opioid receptor (OPRM1), 5-hydroxytryptamine receptor 1A (HTR1A), and dopamine receptor D2 (DRD2) in patients with CFS (n=60) and results were compared with those in patients with autoimmune disease (n=33) and in healthy controls (n=30). The mean anti-CHRM1 antibody index was significantly higher in patients with CFS (p<0.0001) and autoimmune disease (p<0.05) than that in healthy controls, and positive reaction was found in 53.3% of patients with CFS. Anti-OPRM1 antibodies, anti-HTR1A antibodies, and anti-DRD2 antibodies were found in 15.2, 1.7, and 5.0% of patients with CFS, respectively. Anti-nuclear antibodies were found in 56.7% (34/60) of patients with CFS, but anti-nuclear antibody titers did not correlate with the activities of the above four autoantibodies. The patients with positive autoantibodies to CHRM1 had a significantly higher mean score (1.81) of 'feeling of muscle weakness' than negative patients (1.18) among CFS patients (p<0.01). Higher scores on 'painful node', 'forgetfulness', and 'difficulty thinking' were also found in CFS patients with anti-CHRM1 antibodies but did not reach statistical significance. In conclusion, autoantibodies to CHRM1 were detected in a large number of CFS patients and were related to CFS symptoms. Our findings suggested that subgroups of CFS are associated with autoimmune abnormalities of CHRM1.
Int J Mol Med 2003 Aug
PMID:Autoantibodies against muscarinic cholinergic receptor in chronic fatigue syndrome. 1285 22

Complexins (CPLXs) are modulators of synaptic vesicle release. At 1 year of age, CPLXII knockout (KO) mice appear normal. However, behavioral testing reveals underlying deficits of motor and cognitive function in these mice. We found motor deficits on the rotarod, and learning deficits in the Morris water maze (both acquisition and reversal) and the two-choice swim tank (reversal). The reversal learning deficits are particularly noticeable, being present from the earliest time of testing, when most other behaviors are normal. CPLXII KO mice also fail to develop adult patterns of exploratory behavior in the open field and show deficits in interactive grooming behaviors. The behavioral deficits worsen with age. For example, while rotarod performance is normal until 10 weeks, it is impaired from 24 weeks onwards. Similarly, deficits in spatial learning in the Morris water maze are mild at 8 weeks, but pronounced by 1 year of age. The deficits seen in CPLXII KO mice are not due to physical weakness, since their ability to run, swim and grip is unimpaired. Rather, the mice appear to have deficits of higher function. The deficits seen in CPLXII KO mice are strikingly similar to those seen in the R6/2 model of Huntington's disease (HD) where a progressive depletion of CPLXII is seen. This suggests that depletion of CPLXII contributes to cognitive abnormalities in R6/2 mice. Given that decreased expression of CPLXII is seen in HD and schizophrenic patients, a role for CPLXII depletion should be considered in other diseases where motor, cognitive and psychiatric symptoms co-exist.
Hum Mol Genet 2003 Oct 01
PMID:Complexin II is essential for normal neurological function in mice. 1291 44

CoQ transfers electrons from complexes I and II of the mitochondrial respiratory chain to complex III. There are very few reports on human CoQ deficiency. The clinical presentation is usually characterized by: epilepsy, muscle weakness, ataxia, cerebellar atrophy, migraine, myogloblinuria and developmental delay. We describe a patient who presented with neonatal liver and pancreatic insufficiency, tyrosinemia and hyperammonemia and later developed sensorineural hearing loss and Leigh syndrome. Liver biopsy revealed markedly reduced complex I+III and II+III. Addition of CoQ to the liver homogenate restored the activities, suggesting CoQ depletion. Histological staining showed prominent bridging; septal fibrosis and widening of portal spaces with prominent mixed inflammatory infiltrate, associated with interface hepatitis, bile duct proliferation with numerous bile plugs. Electron microscopy revealed a large number of mitochondria, which were altered in shape and size, widened and disordered intercristal spaces. This may be the first case of Leigh syndrome with liver and pancreas insufficiency, possibly caused by CoQ responsive oxphos deficiency.
Mol Genet Metab 2003 Aug
PMID:Neonatal liver failure and Leigh syndrome possibly due to CoQ-responsive OXPHOS deficiency. 1294 44


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