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Query: UMLS:C0002986 (
Fabry
)
5,646
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Human
lymphoid
cell lines established by Epstein-Barr viral transformation of peripheral B-lymphocytes from normal subjects and from
Fabry
patients, were investigated for their ability to biosynthesize neutral glycosphingolipids from [14C]galactose and [14C]glucose as precursors. Galactose was taken up in the presence of high concentrations of glucose and selectively utilised by the cells in the synthesis of galactosphingolipids. The pattern of neutral glycosphingolipids labelled from [14C]galactose was slightly modified with time of labelling in either
lymphoid
cell line: the first labelled glycosphingolipid was lactosylceramide (LacCer) in the normal line and globotetraosylceramide (GbOse4Cer) in the
Fabry
line. After labelling for 96 h, a steady state was reached and the percentage of every type of labelled glycosphingolipid was stable in each cell line; however, differences in the neutral sphingolipid composition appeared between the various cell lines. When using radiolabelled glucose as precursor, the major part of the radioactivity was incorporated into neutral lipids and phospholipids; neutral sphingolipids were much less labelled than when using galactose. Catabolism of endogeneous labelled glycosphingolipids (synthesized by the cells during the 'pulse') was studied after cultivating the cells without radiolabelled precursors ('chase'). In the cells from normal subjects, all the neutral glycosphingolipids were slowly degraded (half-life time around 15-25 days for LacCer and GbOse3Cer). In contrast, in a
lymphoid
line from a
Fabry
patient, no appreciable degradation of GbOse3Cer occurred during 30 days. This block in the catabolism of GbOse3Cer is in good agreement with the previously reported deficiency of alpha-galactosidase A activity in this
Fabry
lymphoid
cell line [Salvayre, R. et al. (1981) Biochim. Biophys. Acta 659, 445-456] and demonstrates that alpha-galactosidase B does not hydrolyze GbOse3Cer in the living cell (in contrast to the situation in vitro).
...
PMID:[Neutral glycosphingolipids of Fabry's disease lymphoblastoid lines established by Epstein-Barr virus transformation]. 298 12
The skin of a patient with
Fabry
's diffuse angiokeratoma accompanied by a severe decrease of leucocyte alpha-galactosidase (0,7-1,2 nmol/mg protein/h) was studied by a method of semithin and ultrathin sections. Cytoplasmic inclusions having lamellar structure in the form of alternating electron-dense and light strips with a period about 6 nm were found in the endotheliocytes of dilated vessels,
lymphoid
cells, neutrophil leucocytes, axons and leucocytes of nerve trunks. The presence of these specific inclusions together with the decrease of leucocytic alpha-galactosidase allows the differential diagnosis with other types of angiokeratomas and some skin angiomas.
...
PMID:[Ultrastructural changes in the skin of patients with Fabry's angiokeratoma]. 299 71
The first part of this review deals with the new biochemical and genetical data concerning alpha-galactosidase and alpha-N-acetylgalactosaminidase. Molecular forms of these both enzymes can be classified into two groups following their physical, enzymatic and genetical properties: - the 3 forms of the alpha-galactosidase A group differ by the number of sialyl residues and their isoelectric point. All the forms of this group are heat-labile, hydrolyse only alpha-galactosides and proceed from the same alpha-GalA, X-linked gene. - alpha-galactosidase B is an alpha-N-acetylgalactosaminidase with broad substrate specificity, in vitro, is heat-stable and proceed from the alpha- GalB or alpha- NAGA gene of the chromosome 22. Structural and enzymatic data concerning these enzymes and their functions in the catabolism of glycosphingolipids and glycoproteins are reviewed. The second part deals with the pathophysiology of
Fabry disease
. The more prominent genetical and biochemical data and their diagnostic uses are reported: isozymic determination, cell cloning, quantitative determination of accumulated glycolipids. At last, were pointed the new developments of the research on
Fabry disease
: cultured cells as experimental model (fibroblasts,
lymphoid
cell lines) and therapeutic attempts.
...
PMID:[Alpha-galactosidases and alpha-N-acetylgalactosaminidase. Biochemical bases of Fabry's disease]. 632 22
We describe two female monozygotic (MZ) twins heterozygous for
Fabry disease
, an X linked disorder resulting from the deficient activity of alpha-galactosidase A. While one of the twins was clinically affected, the other was asymptomatic. Enzymatic assay of alpha-galactosidase in blood leucocytes, skin fibroblasts, Epstein-Barr virus transformed
lymphoid
cell lines, and hair follicles of the twins and their parents confirmed the heterozygous status of the twins and indicated that
Fabry disease
had occurred as a result of a de novo mutation. The son of the unaffected twin sister was shown to be hemizygous. Molecular analysis of the alpha-galactosidase A gene permitted the identification of an as yet undescribed point mutation at position 10182 of exon 5 which causes an Asp to Asn substitution at codon 231. Single strand conformation polymorphism (SSCP) analysis again showed the heterozygous status of the twins and a normal pattern in their parents. The basis for the discordant expression of this d novo mutation in the twins was investigated by studying their X inactivation status. Analysis of the inactive X specific methylation at the androgen receptor gene showed unbalanced inactivation in the twins' fibroblasts and in opposite directions. While the maternally derived X chromosome was preferentially active in the asymptomatic twin, the paternal X chromosome was active in the other, affected twin and was found in her hemizygotic nephew. These data suggest that the paternal X chromosome carries the de novo alpha-galactosidase A mutation and that uneven X inactivation is the underlying mechanism for disease expression in this novel female MZ twin pair. This is the first documented case of female twins discordant for
Fabry disease
.
...
PMID:Uneven X inactivation in a female monozygotic twin pair with Fabry disease and discordant expression of a novel mutation in the alpha-galactosidase A gene. 886 62
We have shown that the ABC transporter, multiple drug resistance protein 1 (MDR1, P-glycoprotein) translocates glucosyl ceramide from the cytosolic to the luminal Golgi surface for neutral, but not acidic, glycosphingolipid (GSL) synthesis. Here we show that the MDR1 inhibitor, cyclosporin A (CsA) can deplete Gaucher
lymphoid
cell lines of accumulated glucosyl ceramide and
Fabry
cell lines of globotriaosyl ceramide (Gb3), by preventing de novo synthesis. In the
Fabry
mouse model, Gb3 is increased in the heart, liver, spleen, brain and kidney. The lack of renal glomerular Gb3 is retained, but the number of verotoxin 1 (VT1)-staining renal tubules, and VT1 tubular targeting in vivo, is markedly increased in
Fabry
mice. Adult
Fabry
mice were treated with alpha-galactosidase (enzyme-replacement therapy, ERT) to eliminate serum Gb3 and lower Gb3 levels in some tissues. Serum Gb3 was monitored using a VT1 ELISA during a post-ERT recovery phase +/- biweekly intra peritoneal CsA. After 9 weeks, tissue Gb3 content and localization were determined using VT1/TLC overlay and histochemistry. Serum Gb3 recovered to lower levels after CsA treatment. Gb3 was undetected in wild-type liver, and the levels of Gb3 (but not gangliosides) in
Fabry
mouse liver were significantly depleted by CsA treatment. VT1 liver histochemistry showed Gb3 accumulated in Kupffer cells, endothelial cell subsets within the central and portal vein and within the portal triad. Hepatic venule endothelial and Kupffer cell VT1 staining was considerably reduced by in vivo CsA treatment. We conclude that MDR1 inhibition warrants consideration as a novel adjunct treatment for neutral GSL storage diseases.
...
PMID:Treatment of neutral glycosphingolipid lysosomal storage diseases via inhibition of the ABC drug transporter, MDR1. Cyclosporin A can lower serum and liver globotriaosyl ceramide levels in the Fabry mouse model. 1672 20
Hematopoietic cell transplantation can impact lysosomal storage disorders (LSDs) and will be enhanced by gene therapy. Transduced cells in LSDs often secrete the therapeutic hydrolase, which can be used by bystander cells. However, toxicity associated with myeloablative transplant preparative regimens limits many applications of this approach in gene therapy. We hypothesized that reduced-intensity (RI) conditioning regimens would allow stable engraftment of therapeutically transduced cells and allow correction of
Fabry disease
. We transplanted transduced cells into
Fabry
mice receiving eight different clinically relevant chemotherapy- and/or radiotherapy-based RI conditioning regimens generating modest and transient
lymphoid
/myeloid cell depletion. Two comprehensive transplantation Protocols were performed. Firstly, transplantation of 0.38 x 10(6) gene-modified stem/progenitor cells was nominally effective; none of the RI regimens led to stable alpha-galactosidase A (alpha-gal A) correction. Secondly, transduced cells were preselected for functional transgene expression and transplanted at a higher dose (0.72 x 10(6) cells). Each RI regimen yielded engraftment of functional transgene-positive cells through 180 days along with increased plasma alpha-gal A activity. Importantly, the RI regimens mediated broad organ enzyme correction and were not associated with immune responses against alpha-gal A. RI conditioning thus has an important role in gene therapy for LSDs; a variety of regimens can be effective in this context.
...
PMID:Multiple reduced-intensity conditioning regimens facilitate correction of Fabry mice after transplantation of transduced cells. 1722 15
