The effects of IGF-1 and erythropoietin on apoptosis and telomerase activity in necrotizing enterocolitis model.

BACKGROUND: Apoptosis that occurs after hypoxia/reoxygenation (H/R) has an important role in the pathogenesis of necrotizing enterocolitis (NEC). Telomerase activity, showing the regeneration capacity, may also be important in the recovery process. Therefore, we aimed to investigate the effects of insulin-like growth factor-1 (IGF-1) and erythropoietin (EPO) on apoptosis and telomerase activity in an H/R model. METHODS: Young mice were divided into four groups each containing ten Balb/c mice. Group 1 (H/R) were exposed to H/R; group 2 and group 3 were pretreated with IGF-1 and EPO, respectively, for 7 days before H/R. Group 4 served as control. Intestinal injury was evaluated by histological scoring and assessment of apoptosis was performed by terminal deoxynucleotidyl transferase dUTP nick-end labeling (TUNEL) test. Proapoptotic and antiapoptotic gene expressions and telomerase activity were analyzed by real-time PCR. RESULTS: IGF-1- and EPO-treated animals had decreased histological damage and apoptosis, confirmed by TUNEL test and caspase activity. Telomerase activity was increased in these animals in addition to increased expression of antiapoptotic genes. However, proapoptotic gene expressions were not statistically different. CONCLUSIONS: The protective effects of IGF-1 and EPO in H/R damage may be through increased expression of antiapoptotic genes and increased telomerase activity, especially for IGF-1. IMPACT: This is a comprehensive study measuring various variables, namely IGF-1, EPO, apoptosis, apoptotic and antiapoptotic genes, and telomerase activity in the NEC model. The intestinal protective effects of IGF-1 and EPO in H/R damage may occur through increased expression of antiapoptotic genes and increased telomerase activity. To the best of our knowledge, telomerase activity has not been investigated in the NEC model before. Regarding our results, novel strategies may be implemented for the early definitive diagnosis, robust preventive measures, and effective treatment modalities for NEC.

Congenital hyperreninemic hypoaldosteronism in Israel: sequence analysis of CYP11B2 gene.

BACKGROUND/AIMS: Isolated aldosterone biosynthesis defect causing congenital hyperreninemic hypoaldosteronism with otherwise normal adrenal function usually results from aldosterone synthase deficiency. Patients present with manifestations of mineralocorticoid deficiency during the first weeks of life. The largest numbers of cases have been described in Iranian Jews, who carried concomitantly two homozygous missense mutations (R181W and V386A). In a few cases with presumed aldosterone synthase deficiency no mutations in CYP11B2 gene have been identified. We describe a molecular and endocrine evaluation of seven cases of congenital hyperreninemic hypoaldosteronism in Israel. PATIENTS/METHODS: Two of the six Jewish patients are of Iranian origin. The parents of five other patients originated from Yemen, Syria and Morocco. One patient is a Muslim-Arab. CYP11B2's exons, exon-intron boundaries and promoter region were sequenced by multiple PCR amplifications. Gene size determination was performed either by long-range PCR or by Southern blot analysis. RESULTS: Only two patients (Iranian Jews) carried a known homozygous R181W, V386A mutations, other two were compound heterozygotes for either the R181W or V386A and one additional novel amino acid substitution (A319V or D335G), and one patient was found to be a carrier of the two novel variations (A319V and D335G). We could not find a molecular defect in 2 patients: one was a carrier of the D335G mutation and the other had no detectable molecular change in the coding and promoter regions. CONCLUSION: The genetic and molecular basis of congenital hyperreninemic hypoaldosteronism is more heterogeneous than previously described. The significance of amino acid substitutions identified in this study remains to be determined.