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Target Concepts:
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Query: UMLS:C0235394 (
wasting
)
8,040
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
This case report concerns a girl born from non-consanguineous parents and hospitalized in another hospital at the age of 14 days because of a severe salt-losing syndrome (Na=125, K=8.6 mEq/l). In spite of normal genitalia, diagnosis of 21-hydroxylase deficiency was assessed on the basis of a slightly increased 17-OH-progesterone serum level (6.4 ng/ml). The onset of both hydrocortisone and 9alpha-fluorohydrocortisone therapy was followed by a resolution of the clinical picture. At the age of 60 days she was admitted to our clinic for a re-evaluation of the diagnosis. Steroid hormone serum levels were measured after withdrawal of therapy and diagnosis of corticosterone methyl oxidase (CMO) deficiency type I was definitely established in the light of the biochemical results: i.e. very low 18-hydroxycorticosterone (18-OH-B) serum levels (20 pg/ml), an abnormally high corticosterone/18-OH-B serum ratio (306.5) and an abnormally low 18-OH-B/aldosterone serum ratio (2.1). This autosomal recessively inherited disorder can be differentiated from CMO type II and other salt-
wasting
syndromes only on the basis of the serum steroid hormone pattern. After establishing the diagnosis of CMO I deficiency, hydrocortisone therapy was withdrawn whilst treatment with 9alpha-fluorohydrocortisone was begun again, with a satisfactory clinical and metabolic impact. Direct sequences of the patient's DNA were able to identify only a (heterozygous) amino acid substitution in exon 7 of that gene, which is known to have only a small effect on enzyme activity and cannot be the only cause of the patient's phenotype: valine-386-alanine (V386A)
GTG
-->GcG. No homozygous mutations in the CYP11B2 gene were observed. This is the first report of a patient with CMO type I who does not carry any homozygous mutation in the entire CYP11B2 alleles, whereas some cases with no mutations in this gene have already been reported in CMO II. The present study seems to be inconsistent with the previously reported correlation of the phenotype and genotype in CMO type I. A reasonable question that might be raised on the basis of our findings in this case report is whether other genes, apart from CYP11B2, are involved in the regulation of terminal aldosterone synthesis.
...
PMID:Aldosterone synthase deficiency type I with no documented homozygous mutations in the CYP11B2 gene. 1117 38
Charcot-Marie-Tooth type 2B (CMT2B) is clinically characterized by marked distal muscle weakness and
wasting
and a high frequency of foot ulcers, infections, and amputations of the toes because of recurrent infections. CMT2B maps to chromosome 3q13-q22. We refined the CMT2B locus to a 2.5-cM region and report two missense mutations (Leu129Phe and Val162Met) in the small
GTP
-ase late endosomal protein RAB7 which causes the CMT2B phenotype in three extended families and in three patients with a positive family history. The alignment of RAB7 orthologs shows that both missense mutations target highly conserved amino acid residues. RAB7 is ubiquitously expressed, and we found expression in sensory and motor neurons.
...
PMID:Mutations in the small GTP-ase late endosomal protein RAB7 cause Charcot-Marie-Tooth type 2B neuropathy. 1254 26
The CMT2B (Charcot-Marie-Tooth type 2B) disease is an autosomal dominant axonal neuropathy. Sensory loss, distal muscle weakness and
wasting
, frequent foot ulcers and amputations of the toes due to frequent infections characterize this neuropathy. Four missense mutations in the rab7 gene have been identified as causative of the disease. Rab7 is a small G-protein of the Rab family that controls vesicular transport to late endosomes and lysosomes in the endocytic pathway. The CMT2B-associated mutant Rab7 proteins show altered nucleotide dissociation rates and impaired GTPase activity. In addition, these mutant proteins are predominantly in the
GTP
-bound form when expressed in human cells and they are able to rescue Rab7 function in Rab7-depleted cells. Thus these mutations generate activated forms of Rab7 that are responsible for the development of the disease. In spite of these results, there are still important gaps in our understanding of the mechanism underlying CMT2B. Indeed, how these mutations in the rab7 gene affect specifically peripheral neurons leading to an axonal pathology in CMT2B is not clear, and it is a particularly puzzling and challenging issue in view of the fact that Rab7 is a ubiquitous protein. The present review discusses possible molecular mechanisms underlying CMT2B.
...
PMID:Rab7 and the CMT2B disease. 1975 45
The diaphragm muscles in vivo are subjected to mechanical forces both in the direction of the muscle fibers and in the direction transverse to the fibers. However, the effect of directional mechanical forces in skeletal muscle gene regulation is completely unknown. Here, we identified that stretch in the longitudinal and transverse directions to the diaphragm muscle fibers up-regulated Ankrd2 gene expression by two distinct signaling pathways in wild-type (WT) and mdm, a mouse model of muscular dystrophy with early-onset of progressive muscle-
wasting
. Stretch in the longitudinal direction activated both NF-kappaB and AP-1 transcription factors, whereas stretch in the transverse direction activated only AP-1 transcription factor. Interestingly, longitudinal stretch activated Ankrd2 promoter only by NF-kappaB, whereas transverse stretch activated Ankrd2 promoter by AP-1. Moreover, we found that longitudinal stretch activated Akt, which up-regulated Ankrd2 expression through NF-kappaB. However, transverse stretch activated Ras-
GTP
, Raf-1, and Erk1/2 proteins, which up-regulated Ankrd2 expression through AP-1. Surprisingly, the stretch-activated NF-kappaB and AP-1 signaling pathways was not involved in Ankrd2 regulation at the basal level, which was high in the mdm mouse diaphragm. Taken together, our data show the anisotropic regulation of Ankrd2 gene expression in the diaphragm muscles of WT and mdm mice via two distinct mechanosensitive signaling pathways.
...
PMID:Anisotropic regulation of Ankrd2 gene expression in skeletal muscle by mechanical stretch. 2044 16
