Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
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Target Concepts:
Gene/Protein
Disease
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Enzyme
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Query: UMLS:C0024523 (
malabsorption
)
7,319
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Modification of the enzymatic functions of tissue transglutaminase (TG2) by anti-TG2 autoantibodies may play a role in manifestations of coeliac disease. Our aim was to evaluate the effect of coeliac autoantibodies on reactions catalysed by TG2 by a systematic biochemical approach, and in relation to observed clinical presentation type. Coeliac antibodies did not have significant inhibitory effect on transamidation/deamidation activity of TG2 as measured by amine-incorporation into solid and immobilised casein and by ultraviolet kinetic assay. In contrast, immunoglobulins from patients with severe
malabsorption
enhanced the reaction velocity to 105.4-242.2%. This activating effect was dose-dependent, most pronounced with immobilised glutamine-acceptor substrates, and correlated inversely with the basal specific activity of the enzyme and with dietary treatment. A similar activation could be demonstrated also with the TG2-specific fraction of autoantibodies and in transamidation activity assays which use fibronectin-bound TG2 and thereby mimic in vivo conditions. These results suggest that coeliac antibodies may stabilise the enzyme in a catalytically advantageous conformation.
GTPase
activity of TG2 decreased to 67.0-73.4% in the presence of antibodies raising the possibility that inhibition of
GTPase
activity may affect cellular signalling in case coeliac autoantibodies would reach intracellular compartments.
...
PMID:Coeliac autoantibodies can enhance transamidating and inhibit GTPase activity of tissue transglutaminase: dependence on reaction environment and enzyme fitness. 1667 98
The intestine must challenge the profuse daily flux of dietary fat that serves as a vital source of energy and as an essential component of cell membranes. The fat absorption process takes place in a series of orderly and interrelated steps, including the uptake and translocation of lipolytic products from the brush border membrane to the endoplasmic reticulum, lipid esterification, Apo synthesis, and ultimately the packaging of lipid and Apo components into chylomicrons (CMs). Deciphering inherited disorders of intracellular CM elaboration afforded new insight into the key functions of crucial intracellular proteins, such as Apo B, microsomal TG transfer protein, and Sar1b
GTPase
, the defects of which lead to hypobetalipoproteinemia, abetalipoproteinemia, and CM retention disease, respectively. These "experiments of nature" are characterized by fat
malabsorption
, steatorrhea, failure to thrive, low plasma levels of TGs and cholesterol, and deficiency of liposoluble vitamins and essential FAs. After summarizing and discussing the functions and regulation of these proteins for reader's comprehension, the current review focuses on their specific roles in malabsorptions and dyslipidemia-related intestinal fat hyperabsorption while dissecting the spectrum of clinical manifestations and managements. The influence of newly discovered proteins (proprotein convertase subtilisin/kexin type 9 and angiopoietin-like 3 protein) on fat absorption has also been provided. Finally, it is stressed how the overexpression or polymorphism status of the critical intracellular proteins promotes dyslipidemia and cardiometabolic disorders.
...
PMID:Insights from human congenital disorders of intestinal lipid metabolism. 2538 65
Chylomicron Retention Disease (CMRD) is a rare inherited lipid
malabsorption syndrome
that exhibits a recessive hypocholesterolemia in infants. CMRD has been associated with genetic mutations of SAR1B-a member of the Arf
GTPase
family involved in the secretory pathway from the endoplasmic reticulum to the Golgi. CMRD patients suffer from multiple neurological deficits, the etiologies of which remain unclear. In this study, we found that Sar1b protein is expressed in developing mouse neocortex. The knockdown of Sar1b does not affect the proliferation and mitotic exit of the neural progenitors but inhibits the radial migration of the newborn cortical neurons. At postnatal day 3, the neurons stalled in the white matter fail to develop axons across the midline of the corpus callosum, resulting in the loss of the neurons later on. hSAR1B(D137N), a CMRD-associated mutant of SAR1B, also impairs the positioning of the cortical neurons in the mouse brain, suggesting a dominant-negative effect by the human heterozygous mutant. The results indicate that SAR1B is crucial to radial migration and axon morphogenesis of the cortical neurons. Our study reveals a cell-autonomous action of Sar1b, which is unrelated to lipid absorption from the gut, on the development of the cerebral cortex.
...
PMID:Inhibition of Sar1b, the Gene Implicated in Chylomicron Retention Disease, Impairs Migration and Morphogenesis of Developing Cortical Neurons. 3300 59
