Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
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Drug
Enzyme
Compound
Query: UMLS:C0024523 (
malabsorption
)
7,319
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The secretion of pregastric
esterase
and other oral lipases has been detected in 13 species. Research on secretion by the human, calf, kid goat, lamb, and rat of pregastric
esterase
has been significant. Secretion by calves is little affected by age or diet but is greater when calves are nipple fed than when pail fed. Whole milk sham-fed to calves exhibits immediate, sharp decreases in pH and rennet coagulation time resulting from liberation of free fatty acids by pregastric
esterase
. Bacterial counts in sham-fed products are higher than in control (nonfed) products, but during subsequent incubation bacterial numbers increase less rapidly in sham-fed products. Calf pregastric
esterase
is a major fat digestive enzyme in young calves but gradually becomes subsidiary to pancreatic lipase as secretion of the latter develops with age. Calf, kid goat, and lamb pregastric
esterase
exhibits optimum activity on milk fat but is capable of splitting other dietary fats. Data on oral and "gastric" lipases in calves, humans, and rats suggests that gastric lipase is oral lipase. Data on pH and temperature optima as well as activation and inhibition of oral lipases is contradictory but appears to vary considerably between species. Calf pregastric
esterase
exhibits a unique specificity for fatty acids 4:0 to 10:0 and preferentially hydrolyzes the primary ester position of glycerin. Preparations of calf, kid goat, and lamb pregastric
esterase
are used commercially to impar typical flavors to Italian-type and Feta cheeses and to accelerate flavor development in other cheeses and cheese-like products. Butterfat modified by pregastric
esterase
is utilized to impart dairy flavor character to a wide range of processed foods. Treatment with pregastric
esterase
of calf scours and human
malabsorption
of syndrome also has been reported.
...
PMID:Pregastric esterase and other oral lipases--a review. 32 89
The early and late effects of a single high-dose irradiation (100 rad) in the pig small intestine have been studied by histoenzymology and electron microscopy and related to some functional data. 1) The initial atrophy induced by the irradiation appears late (on the 6th day), compared to other species. This is due to the fairly long regeneration time of the villi epithelium in the pig. 2) The initial lesions are similar to those observed in different experimental models (nuclear alterations, karyolytic bodies, etc.). They particularly involve the crypts, and are specially focused in the undifferentiated cells of GS phase or mitosis, but also in goblet and Paneth's cells. 3) The villi regeneration, over on the 23rd day, is preceeded by an active mitotic phase which first renews the undifferentiated cells. This mitotic activity, reaching its highest value on the 16th day, goes on during the whole regeneration period itself. 4) At the beginning, this regeneration is denoted by the high
esterase
activity of the crypt collar. It appears in many goblet cells and also in some absorptive cells which show, at once, some of the enzymatic activities of the striated border. However, for a short period, lipid absorption is quantitatively reduced. This is connected with the temporary cell immaturity (up to the 20th day) and to the poorly developed rough endoplasmic reticulum and Golgi apparatus. 5) Further on, the persistence of a
malabsorption syndrome
(lipids, calcium) is not connected, for the main point, with modifications of the morphology or the cytology of the villi (in spite of the abnormally high number of goblet cells and the presence of few pathologic absorptive cells). It is, in fact, related to the persistence of an inflammatory state of the lamina propria associated with an exudative enteropathy. The meaning of this last finding is not clear: it could depend on a primary infectious state due to the modifications of the endoluminal intestinal flora, or, rather, on a secondary infection supported by the trophic epithelial disturbances induced by a continuous vascular dyshoria due to the irradiation.
...
PMID:High-dose irradiation in the pig small intestine. Histoenzymology and electron microscopic study. 40 73
