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:C0036690 (
sepsis
)
59,461
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
CD14, a glycolipid-anchored membrane glycoprotein, acts as a high affinity lipopolysaccharide receptor on leukocytes. We previously reported that the Mono-Mac-6 cell line releases two different soluble forms of CD14 (sCD14) (Labeta et al., Eur. J. Immunol. 1993. 23: 2144). Here we show that the two sCD14, which we now refer to as sCD14 alpha (low M(r)) and sCD14 beta (high M(r)), are also synthesized and released by normal human monocytes and present in normal plasma. Their mechanism of release was examined by using the Mono-Mac-6 cell line, chinese hamster ovary cell (CHO)/CD14+ transfectants and plasma from paroxysmal nocturnal hemoglobinuria (PNH) patients. It was found that: (1) sCD14 beta is released faster than sCD14 alpha and that the release of the latter is a lengthy process. (2)
Monensin
blocked the biosynthesis of membrane-bound CD14 (mCD14) and sCD14, additionally, a 50-kDa CD14 polypeptide accumulated in the cell lysate, suggesting that the different forms of CD14 may have a common precursor. (3)
Monensin
also blocked the release of sCD14 alpha from surface-labeled cells, suggesting that conversion of mCD14 to sCD14 alpha involves a mechanism of endocytosis followed by exocytosis. Interestingly, (4) sCD14 alpha and sCD14 beta were detected in PNH plasma, indicating that sCD14 alpha may also derive from an endogenous pathway. (5) Phospholipase C-released CD14 was identical in size to mCD14, thus differed from sCD14 beta by approximately 2000, indicating that release of sCD14 beta involves further processing. (6) CHO cells transfected with a CD14 cDNA coding for an eight C-terminal amino acids shorter product released an sCD14 beta-like form; thus absence of the eight C-terminal amino acids prevented mCD14 expression but not the secretion of sCD14 beta. The characterization of sCD14 alpha and sCD14 beta reported here may be useful for better understanding of variations in sCD14 levels in pathological conditions and the contribution of each sCD14 in
sepsis
and other, as yet unknown functions.
...
PMID:The two soluble forms of the lipopolysaccharide receptor, CD14: characterization and release by normal human monocytes. 752 57
Although a linkage between aerobic glycolysis and sodium-potassium transport has been demonstrated in diaphragm, vascular smooth muscle, and other cells, it is not known whether this linkage occurs in skeletal muscle generally. Metabolism of intact hind-leg muscles from young rats was studied in vitro under aerobic incubation conditions. When sodium influx into rat extensor digitorum longus (EDL) and soleus muscles was facilitated by the sodium ionophore monensin, muscle weight gain and production of lactate and alanine were markedly stimulated in a dose-dependent manner. Although lactate production rose in both muscles, it was more pronounced in EDL than in soleus.
Monensin
-induced lactate production was inhibited by ouabain or by incubation in sodium-free medium. Preincubation in potassium-free medium followed by potassium re-addition also stimulated ouabain-inhibitable lactate release. Replacement of glucose in the incubation medium with pyruvate abolished monensin-induced lactate production but exacerbated monensin-induced weight gain. Muscles from septic or endotoxin-treated rats exhibited an increased rate of lactate production in vitro that was partially inhibited by ouabain. Increases muscle lactate production in
sepsis
may reflect linked increases in activity of the Na+, K+-ATPase, consumption of ATP and stimulation of aerobic glycolysis.
...
PMID:Linkage of aerobic glycolysis to sodium-potassium transport in rat skeletal muscle. Implications for increased muscle lactate production in sepsis. 894 58
