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Query: UMLS:C0847097 (
acidity
)
15,165
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Ammonia production increases in several models of renal hypertrophy in vivo. The present study was designed to determine whether ammonia can directly modulate the growth of renal cells in the absence of a change in extracellular
acidity
. In serum-free media NH4Cl (0-20 mM) caused JTC cells and a primary culture of rabbit proximal tubule cells to hypertrophy (increase in cell protein content) in a dose-dependent fashion without a change in DNA synthesis. Studies in JTC cells revealed that the cell protein content increased as a result of both an increase in protein synthesis and a decrease in protein degradation. Total cell RNA content and ribosome number increased after NH4Cl exposure and the cell content of the lysosomal enzymes cathepsin B and L decreased. Inhibition of the
Na+/H+ antiporter
with amiloride did not prevent the hypertrophic response induced by NH4Cl. The results indicate that ammonia is an important modulator of renal cell growth and that hypertrophy can occur in the absence of functioning Na+/H+ antiport activity.
...
PMID:Induction of hypertrophy in cultured proximal tubule cells by extracellular NH4Cl. 248 Mar 66
Renal acid excretion and proximal and distal nephron acidification were evaluated 20 days after induction of diabetes, in rats, by intraperitoneal injection of streptozotocin (45 mg/kg). Titratable
acidity
in urine was measured by microtitration and ammonium excretion (NH4+) by spectrophotometry. Proximal tubular acidification was evaluated by the kinetics of reabsorption of perfused HCO3-. Distal nephron acidification was evaluated by measuring urine - blood pCO2 differences under alkaline overload. The net acid excretion (titratable
acidity
+ NH4+ - HCO3-) was higher (p < 0.001) in diabetic rats (9.82+/-0.65 micromol/min/kg, n = 26) than in the control group (6.34+/-0.14, n = 24). Proximal HCO3- reabsorption was also higher (p < 0.001) in diabetic rats (8.38+/-0.11 nmol/cm2/s, n = 12) than in the control group (2.30+/-0.10, n = 22); however, evaluation of distal nephron H+ secretion by urine - blood pCO2 methodology was similar in both groups. We concluded that in rats with induced diabetes mellitus there is an increased rate of proximal HCO3- reabsorption, possibly effected by a higher density of
Na+/H+ antiporter
in the luminal membrane of the proximal tubule and by an increased proton-motive force of the H+ secretory mechanism. The higher rates of H+ secretion generate lower stationary proximal luminal pH and probably maintain the blood pH within the physiological range.
...
PMID:Alterations of the renal handling of H+ in diabetic rats. 939 31
The virulence of pathogenic bacteria is dependent on their adaptation to and survival in the stressful conditions encountered in their hosts. Helicobacter pylori exclusively colonizes the acid stomach of primates, making it an ideal study model. Little is known about how H. pylori responds to the moderately acidic conditions encountered at its colonization site, the gastric mucus layer. Thus, we compared gene expression profiles of H. pylori 26695 grown at neutral and acidic pH, and validated the data for a selection of genes by real-time polymerase chain reaction, dot-blots or enzymatic assays. During growth in acidic conditions, 56 genes were upregulated and 45 genes downregulated. We found that
acidity
is a signal modulating the expression of several virulence factors. Regulation of genes related to metal ion homeostasis suggests protective mechanisms involving diminished transport and enhanced storage. Genes encoding subunits of the F0F1 ATPase and of a newly identified
Na+/H+ antiporter
(NhaC-HP0946) were downregulated, revealing that this bacterium uses original mechanisms to control proton entry. Five of the upregulated genes encoded proteins controlling intracellular ammonia synthesis, including urease, amidase and formamidase, underlining the major role of this buffering compound in the protection against
acidity
in H. pylori. Regulatory networks and transcriptome analysis as well as enzymatic assays implicated two metal-responsive transcriptional regulators (NikR and Fur) and an essential two-component response regulator (HP0166, OmpR-like) as effectors of the H. pylori acid response. Finally, a nikR-fur mutant is attenuated in the mouse model, emphasizing the link between response to
acidity
, metal metabolism and virulence in this gastric pathogen.
...
PMID:Responsiveness to acidity via metal ion regulators mediates virulence in the gastric pathogen Helicobacter pylori. 1522 39
Aged skin commonly is afflicted by inflammatory skin diseases or xerosis/eczema that could be triggered or exacerbated by impaired epidermal permeability barrier homeostasis. This defect is linked to reduced epidermal lipid synthesis in humans and in mice of advanced age (i.e., >75 years in human or >18-24 months in mice). We now report that barrier defects in moderately aged humans (50-80 years) or analogously aged mice (12-15 months) are linked instead to defective stratum corneum (SC)
acidity
. In moderately aged mouse epidermis, we find that abnormal acidification, in turn, is linked to decreased
Na+/H+ antiporter
(NHE1) expression. Decreased NHE1 levels lead to increased SC pH, which results in defective lipid processing and delayed maturation of lamellar membranes, due to suboptimal activation of the pH-sensitive essential, lipid-processing enzyme, beta-glucocerebrosidase. Conversely, impaired SC integrity in moderately aged mice is due to increased pH-dependent activation of serine proteases, leading to premature degradation of corneodesmosomes. These abnormalities were normalized by exogenously acidifying the SC, suggesting a basis for the well-known acidification therapies that are widely used to treat the pathologic xerosis/eczema seen in moderately aged humans.
...
PMID:Stratum corneum acidification is impaired in moderately aged human and murine skin. 1755 64
