Gender Differences in S-Nitrosoglutathione Reductase Activity in the Lung

S-nitrosothiols have been implicated in the etiology of various pulmonary diseases. Many of these diseases display gender preferences in presentation or altered severity that occurs with puberty, the mechanism by which is unknown. Estrogen has been shown to influence the expression and activity of endothelial nitric oxide synthase (eNOS) which is associated with increased S-nitrosothiol production. The effects of gender hormones on the expression and activity of the de-nitrosylating enzyme S-nitrosoglutathione reductase (GSNO-R) are undefined. This report evaluates the effects of gender hormones on the activity and expression of GSNO-R and its relationship to N-acetyl cysteine (NAC)-induced pulmonary hypertension (PH). GSNO-R activity was elevated in lung homogenates from female compared to male mice. Increased activity was not due to changes in GSNO-R expression, but correlated with GSNO-R S-nitrosylation: females were greater than males. The ability of GSNO-R to be activated by S-nitrosylation was confirmed by: 1) the ability of S-nitrosoglutathione (GSNO) to increase the activity of GSNO-R in murine pulmonary endothelial cells and 2) reduced activity of GSNO-R in lung homogenates from eNOS−/− mice. Gender differences in GSNO-R activity appear to explain the difference in the ability of NAC to induce PH: female and castrated male animals are protected from NAC-induced PH. Castration results in elevated GSNO-R activity that is similar to that seen in female animals. The data suggest that GSNO-R activity is modulated by both estrogens and androgens in conjunction with hormonal regulation of eNOS to maintain S-nitrosothiol homeostasis. Moreover, disruption of this eNOS-GSNO-R axis contributes to the development of PH

GSNO-R activity and S-nitrosylation is elevated in the female mouse lung.

<p>(A) GSNO-R activity was measured in lung homogenates from male and female C57Bl6/129SvEv mice using LC/MS. GSNO-R activity is expressed as the amount of GSNO catabolized after 5 min. Activity present in female mouse lung homogenates was approximately two times that seen in the males (n = 20, p<0.003). (B) GSNO-R activity was measured by LC/MS in lung homogenates from young (4 w) C57Bl6/129SvEv sexually immature male and female mice. Gender differences in GSNO-R activity were not seen in the young animals (n = 5). (C) GSNO-R protein expression was determined in adult C57Bl6/129SvEv male and female lung homogenates. Protein expression was not significantly different between genders. (D) Lung homogenates from C57Bl6/129SvEv male and female mice were subjected to biotin switch to determine if GSNO-R was S-nitrosylated in vivo. Lung homogenates from both male and female animals demonstrate the presence of GSNO-R S-nitrosylation. However, the extent of S-nitrosylation was greater in the female animals. Incubation of the lung homogenates with mercuric chloride reduced the abundance of S-nitrosylated GSNO-R.</p

GSNO-R activity measured by modified Saville Assay is greater in lung homogenates obtained from female mice.

<p>GSNO-R activity was determined in homogenates from the lung, liver and kidney of adult male and female mice. GSNO-R activity was measured in homogenates (250 µg) in the presence of 100 µM GSNO in the presence or absence of NADH at 37°C for 5 min. GSNO-R activity was significantly higher in lung homogenates obtained from female mice compared to male mice (n = 4). No gender specific differences were seen in either the liver or kidney homogenates (n = 2–4).</p

SNO/Hb levels are similar in untreated Male and Female C57Bl6/129SvEv Mice.

<p>Left ventricular blood was collected from male (n = 4) and female (n = 4) mice and subjected to reductive chemiluminescence in the presence of carbon monoxide (3C assay). SNO values were normalized to hemoglobin content.</p

Castration increases GSNO-R S-nitrosylation and activity.

<p>(A) Castrated mice show an increase in GSNO-R activity compared to the male gonad intact animals. It should be noted that the levels of GSNO-R activity seen in the castrated mice is similar to that seen in the female mice. The data are presented as the amount of GSNO remaining after 5 min as determined by LC/MS. (B) GSNO-R protein expression in gonad intact and castrated animals was determined by western blot. No differences in GSNO-R protein expression were seen in the intact or castrated animals. (C) S-nitrosylated GSNO-R (SNO-GSNO-R) was determined by biotin switch followed by western blot analysis using anti-GSNO-R antibodies. S-nitrosylated GSNO-R levels were elevated in the castrated animals.</p

Female C57BL6/129SvEv mice do not develop PH with chronic, systemic administration of N-acetyl cysteine.

<p>C57Bl/129SvEv mice were untreated (N) or treated with 10 mg/ml NAC (NAC), 52 mM SNOAC (SNOAC) or hypoxia (H) for a period of 3 weeks. (A) Right ventricular pressure (RVP) and (B) right heart weight (expressed as right ventricular weight/left ventricular weight + septum weight (RV/LV+S) were determined. Female mice responded to only to SNOAC and hypoxia. * (<i>n = 19–25</i>, p<0.05).</p

Castration increases GSNO-R activity, protecting against NAC-induced increases in right heart weight and ventricular pressure.

<p>Male C57BL6/129SvEv mice with either intact gonads or castrated were treated with (white bars) or without NAC (black bars) for 3 weeks. (A) RVW and (B) RVP were measured. Castration eliminated the increase in both RVW and RVP (N = 11 intact, N = 10 castrated, p<0.001).</p

eNOS is required for GSNO-R activity.

<p>(A) GSNO-R activity was measured in the lung homogenates obtained from eNOS^−/− and wild type (C57Bl6) mice using a modified Saville Assay using 28 µM GSNO with no protein precipitation. GSNO-R activity was reduced by 50% in the eNOS^−/− lung homogenate compared to that seen in the wild type mice (n = 5–6, p<0.002). (B) Western blot analysis of GSNO-R protein present in wild type (C57Bl6) and eNOS^−/− mouse lungs. No significant differences were detected in GSNO-R protein levels (n = 3).</p

Androgen mediated increases in GSNO-R activity are eNOS-independent.

<p>GSNO-R activity was measured in lung homogenates obtained from gonad intact and castrated eNOS^−/− mice. Castration resulted in a significant increase in GSNO-R activity as measured by modified Saville Assay using 28 µM GSNO with no protein precipitation. (n = 6 intact, n = 4 castrated, p<0.038).</p

Serum SNOAC levels are lower in female mice.

<p>Serum SNOAC was measured by mass spectrometry (MS) in C57BL6/129SvEv male and female mice treated with NAC. Left panel  =  LC chromatogram: Right panel =  MS spectrum. Serum from NAC-treated male (red) and female (green) mice had a SNOAC peak (m/z 193) that co-migrated with the ¹⁵N-SNOAC standard (black). No signal was seen in non-treated mice (blue). The amount of SNOAC was less in the female mice.</p