Aldosterone-induced proteins in primary cultures of rabbit renal cortical collecting system.

Primary cultures of immunodissected cells from rabbit kidney connecting tubule and cortical collecting duct were used to study aldosterone's action on transcellular Na+ flux. Incubation with 10(-7) M aldosterone stimulated transcellular Na+ transport which was detected as an increase in benzamil-sensitive short-circuit current. The stimulatory response was consistently noted after 2 h of incubation and stabilized after 6 h. 2D-PAGE was used to identify proteins which were induced concurrently with the increase in transcellular Na+ flux after an aldosterone incubation of 15 h. Three aldosterone-induced proteins (AIPs; M(r) = 100, 70-77 and 46-50 kDa) were found in the membrane and microsomal fractions. Two of these appeared to have more than one isoform. A single heterogeneous AIP (M(r) = 77 kDa) was detected in the soluble fraction.

Thermolabile 5,10-methylenetetrahydrofolate reductase as a cause of mild hyperhomocysteinemia.

Thermolability of 5,10-methylenetetrahydrofolate reductase (MTHFR) was examined as a possible cause of mild hyperhomocysteinemia in patients with premature vascular disease. Control subjects and vascular patients with mild hyperhomocysteinemia and with normohomocysteinemia were studied. The mean (+/- SD) specific MTHFR activity in lymphocytes of 22 control subjects was 15.6 (+/- 4.7) nmol CH2O/mg protein/h (range: 9.1-26.6), and the residual activity (+/- SD) after heat inactivation for 5 min at 46 degrees C was 55.3 (+/- 12.0)% (range: 35.9-78.3). By measurement of MTHFR activity, two distinct subgroups of hyperhomocysteinemic patients became evident. One group (n = 11) had thermolabile MTHFR with a mean (+/- SD) specific activity of 8.7 (+/- 2.1) nmol CH2O/mg protein/h (range: 5.5-12.7) and a residual activity, after heat inactivation, ranging from 0% to 33%. The other group (n = 28) had normal specific activity (+/- SD) of 21.5 (+/- 7.2) nmol CH2O/mg protein/h (range: 10.0-39.0) and a normal residual activity (+/- SD) of 53.8 (+/- 9.2)% (range: 33.1-71.5) after heat inactivation. The mean (+/- SD) specific activity of 29 normohomocysteinemic patients was 20.7 (+/- 6.5) nmol CH2O/mg protein/h (range: 9.4-33.8), and the mean (+/- SD) residual activity after heat inactivation was 58.2 (+/- 10.2)% (range: 43.0-82.0). Thus, in 28% of the hyperhomocysteinemic patients with premature vascular disease, abnormal homocysteine metabolism could be attributed to thermolabile MTHFR.