Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UMLS:C0038187 (
starvation
)
24,951
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
1. Early development of peptide hydrolysis in the digestive tract was investigated in experiments with fasted and fed ad lib. chicks during the first decade of postnatal period. 2. Pancreatic carboxypeptidase A (CPA) activity was maximal at the moment of hatch. On the second day CPA activity considerably diminished in starved and fed animal groups; further
starvation
(3-4 days) led to the significant increase of CPA total and specific activity, whereas the amount of enzyme in pancreas of fed chicks was rather low. 3.
Aminopeptidase
(AP) activity of the small intestinal surface was less sensitive to
starvation
. The increase of activity in all intestinal parts was observed only on the 4th day of fasting. The most sensitive to
starvation
were dipeptidases. Changes in their activity (2-fold increase) were detected after 24 hr of
starvation
. 4. The formation of specific physiological proximo-distal gradient of intestinal exopeptidase activities began only after the moment of the first feeding. 5. This gives evidence that the development of peptide hydrolysis depends not only on the age of the animal but also on the normal physiological beginning of the process of exogenous nutrition.
...
PMID:Effect of early postnatal long-term fasting on the development of peptide hydrolysis in chicks. 134 25
The effects of long-term
starvation
on the activities of sucrase, lactase, and aminopeptidase, and on their respective mRNA were determined in the small intestine of thyroidectomized and sham-operated adult rats. Thyroidectomy reduced the protein loss at the level of the intestinal brush border membranes during
starvation
. Prolonged fasting caused a significant decrease in sucrase activity, but thyroidectomy partly prevented this effect. However, the amount of the corresponding mRNA dropped during long term
starvation
without incidence of thyroidectomy. Lactase activity in the brush border membranes was increased by
starvation
, and thyroidectomy caused a further elevation of the enzyme activity. Simultaneously, lactase mRNA content rose only slightly compared to the enzyme activity.
Aminopeptidase
activity and mRNA content decreased during
starvation
and thyroidectomy did not prevent this process. These results indicate that intestinal hydrolases respond non-coordinately to long-term food deprivation. In addition, the thyroid status of the animals has a direct influence on the adaptation of several brush border hydrolases to
starvation
. This suggests that the drop in plasma thyroid hormones during fasting allows a better maintenance of protein content and of hydrolase activities in the brush border membranes of the small intestine. These adaptive processes seemed to be partly controlled at a post-transcriptional level.
...
PMID:Adaptation of intestinal hydrolases to starvation in rats: effect of thyroid function. 193 43
Aminopeptidase
, lactase and sucrase activities have been followed during 5 days in the jejunum and in the ileum of starved adult rats. Enzyme activities have been determined in the mucosal homogenates as well as in the purified brush border membranes and expressed as activities per intestinal length (segmental activities) or as activities per milligram of protein (specific activities). The segmental and specific activity of aminopeptidase was increased in the ileum during the first 2 days of
starvation
, suggesting that aminopeptidase may have during the first days of
starvation
a conservative role by preventing an important loss of tissue protein. In all conditions, lactase activity was strikingly enhanced by
starvation
whereas sucrase activity showed no changes or decreased activity. Lactase stimulation was initiated during the first 24 h of
starvation
reaching its maximum after 2 days. The various experimental conditions leading to a specific or to a nonspecific stimulation of intestinal lactase activity have been discussed.
...
PMID:Modifications of brush border enzyme activities during starvation in the jejunum and ileum of adult rats. 715 74
Aminopeptidase
I (API) is imported into the yeast vacuole/lysosome by a constitutive non-classical vesicular transport mechanism, the cytoplasm to vacuole targeting (Cvt) pathway. Newly synthesized precursor API is sequestered in double-membrane cytoplasmic Cvt vesicles. The Cvt vesicles fuse with the vacuole, releasing single-membrane Cvt bodies containing proAPI into the vacuolar lumen, and maturation of API occurs when the Cvt body is degraded, releasing mature API. Under
starvation
conditions, API is transported to the vacuole by macroautophagy, an inducible, non-selective mechanism that shares many similarities with the Cvt pathway. Here we show that Tlg2p, a member of the syntaxin family of t-SNARE proteins, and Vps45p, a Sec1p homologue, are required in the constitutive Cvt pathway, but not in inducible macroautophagy. Fractionation and protease protection experiments indicate that Tlg2p is required prior to or at the step of API segregation into the Cvt vesicle. Thus, the early Vps45-Tlg2p-dependent step of the Cvt pathway appears to be mechanistically distinct from the comparable stage in macroautophagy. Vps45p associates with both the Tlg2p and Pep12p t-SNAREs, but API maturation is not blocked in a pep12(ts) mutant, indicating that Vps45p independently regulates the function of multiple t-SNARES at distinct trafficking steps.
...
PMID:Cytoplasm to vacuole trafficking of aminopeptidase I requires a t-SNARE-Sec1p complex composed of Tlg2p and Vps45p. 1054 12
Aminopeptidase
I (API) is delivered to the yeast vacuole by one of two alternative pathways, cytoplasm to vacuole targeting (Cvt) or autophagy, depending on nutrient conditions. Genetic, morphological, and biochemical studies indicate that the two pathways share many of the same molecular components. The Cvt pathway functions during vegetative growth, while autophagy is induced during
starvation
. Both pathways involve the formation of cytosolic vesicles that fuse with the vacuole. In either case, the mechanism of vesicle formation is not known. Autophagic uptake displays a greater capacity for cytosolic protein sequestration. This suggests the involvement of an inducible protein(s) that allows the vesicle-forming machinery to adapt to the increased degradative needs of the cell. We have analyzed the biosynthesis of Aut7p, a protein required for both pathways. We find Aut7p expression is induced by nitrogen
starvation
. Aut7p is degraded by a process dependent on both proteinase A and Cvt/autophagy components. Protease accessibility assays demonstrate that Aut7p is located within vesicles in strains defective in vesicle delivery or breakdown. Finally, the aut7/cvt5 mutant accumulates precursor API at a stage prior to vesicle completion. These data suggest that Aut7p is induced during autophagy and delivered to the vacuole together with precursor API by Cvt/autophagic vesicles.
...
PMID:The itinerary of a vesicle component, Aut7p/Cvt5p, terminates in the yeast vacuole via the autophagy/Cvt pathways. 1068 75
This study characterized the ability of lactococci to become nonculturable under carbohydrate
starvation
while maintaining metabolic activity. We determined the changes in physiological parameters and extracellular substrate levels of multiple lactococcal strains under a number of environmental conditions along with whole-genome expression profiles. Three distinct phases were observed, logarithmic growth, sugar exhaustion, and nonculturability. Shortly after carbohydrate
starvation
, each lactococcal strain lost the ability to form colonies on solid media but maintained an intact cell membrane and metabolic activity for over 3.5 years. ML3, a strain that metabolized lactose rapidly, reached nonculturability within 1 week. Strains that metabolized lactose slowly (SK11) or not at all (IL1403) required 1 to 3 months to become nonculturable. In all cases, the cells contained at least 100 pM of intracellular ATP after 6 months of
starvation
and remained at that level for the remainder of the study.
Aminopeptidase
and lipase/esterase activities decreased below detection limits during the nonculturable phase. During sugar exhaustion and entry into nonculturability, serine and methionine were produced, while glutamine and arginine were depleted from the medium. The cells retained the ability to transport amino acids via proton motive force and peptides via ATP-driven translocation. The addition of branched-chain amino acids to the culture medium resulted in increased intracellular ATP levels and new metabolic products, indicating that branched-chain amino acid catabolism resulted in energy and metabolic products to support survival during
starvation
. Gene expression analysis showed that the genes responsible for sugar metabolism were repressed as the cells entered nonculturability. The genes responsible for cell division were repressed, while autolysis and cell wall metabolism genes were induced neither at
starvation
nor during nonculturability. Taken together, these observations verify that carbohydrate-starved lactococci attain a nonculturable state wherein sugar metabolism, cell division, and autolysis are repressed, allowing the cells to maintain transcription, metabolic activity, and energy production during a state that produces new metabolites not associated with logarithmic growth.
...
PMID:Carbohydrate starvation causes a metabolically active but nonculturable state in Lactococcus lactis. 1729 21
