The critical role of tissue angiotensin-converting enzyme as revealed by gene targeting in mice.

Angiotensin-converting enzyme (ACE) generates the vasoconstrictor angiotensin II, which plays a critical role in maintenance of blood pressure in mammals. Although significant ACE activity is found in plasma, the majority of the enzyme is bound to tissues such as the vascular endothelium. We used targeted homologous recombination to create mice expressing a form of ACE that lacks the COOH-terminal half of the molecule. This modified ACE protein is catalytically active but entirely secreted from cells. Mice that express only this modified ACE have significant plasma ACE activity but no tissue-bound enzyme. These animals have low blood pressure, renal vascular thickening, and a urine concentrating defect. The phenotype is very similar to that of completely ACE-deficient mice previously reported, except that the renal pathology is less severe. These studies strongly support the concept that the tissue-bound ACE is essential to the control of blood pressure and the structure and function of the kidney.

The role of Angiotensin-converting enzyme in blood pressure control, renal function, and male fertility.

Angiotensin-converting enzyme (ACE) is a zinc peptidase that plays a major role in the renin-angiotensin system. In mammals, the enzyme is present as two isozymes: a somatic form involved in blood-pressure regulation and a testis form of unknown function. Mice lacking ACE have been created and shown to have low systolic blood pressures and defects in renal development and function. These mice also have reduced male fertility, implicating the testis isozyme in reproductive function. (Trends Endocrinol Metab 1997;8:181-186). (c) 1997, Elsevier Science Inc.

Effects of alpha-thalassemia-2 on the developmental changes of hematological values in children with sickle cell disease from Georgia.

The hematology and pathophysiology of sickle cell disease during the postnatal development of younger hemoglobin (Hb) S homozygotes (SS) could be considerably affected by a variability of alpha globin gene numbers. We have documented longitudinal developmental changes of hematological values and hemoglobin composition on 147 patients with SS (alpha alpha/alpha alpha), 64 with SS (-alpha/alpha alpha), and 9 with SS (-alpha/-alpha) between the ages of 1 and 15 years. Non-steady-state data were excluded from these analyses. The number and organization of alpha globin genes was established by gene mapping. As anticipated, mean corpuscular volume and erythrocyte counts correlated with alpha globin gene numbers throughout the 15-year age interval. On the other hand, SS children with alpha alpha/alpha alpha, -alpha/alpha alpha, -alpha/-alpha had similar hemoglobin concentrations up to the ages of 5-10 years. Around the age of 7, the SS patients with -alpha/-alpha developed a higher Hb concentration than that of the SS (-alpha/alpha alpha), which in turn was higher than that of the SS (alpha alpha/alpha alpha). The emergence of this difference coincided with a developmental increase of the mean corpuscular hemoglobin concentration (MCHC) in patients with SS (alpha alpha/alpha alpha) and the decline of Hb F % under 15%. This newly observed developmental change of the MCHC could lead to increased hemolysis and anemia after the age of 5-10 years. It occurs to a smaller extent among SS (-alpha/alpha alpha) or not at all among SS (-alpha/-alpha) such that these two categories of patients have less severe hemolysis and higher hemoglobin levels at older ages. Although the proportion of Hb F was independent of alpha globin gene numbers, the absence of Hb Bart's suggested that alpha-thalassemia promotes the intracellular assembly of Hb F over Hb S tetramers. Thus, the interaction of alpha-thalassemia and Hb F in young SS patients may be more complex than revealed by Hb F levels in cell lysates. Among older SS children (greater than 7 years) alpha-thalassemia and Hb F levels exceeding 15% appear to have additive effects in diminishing the rate of hemolysis.

Insulin and glucocorticoids regulate IGFBP-1 expression via a common promoter region.

Hepatic expression of insulin-like growth factor binding protein-1 is regulated by insulin and glucocorticoids. To study underlying mechanisms, rat hepatocytes in primary culture were transfected with deletion mutants and heterologous promoter constructs, identifying a 41 bp region of the rat insulin-like growth factor binding protein-1 promoter which is sufficient to mediate regulation by both insulin and glucocorticoids. Half maximal suppression of promoter activity by insulin occurred at a physiologic concentration, 5 x 10(-10) M, and regulation by insulin was dominant in that insulin suppressed promoter activity at all dexamethasone concentrations. Transfection of rat hepatocytes in primary culture should be a useful approach for exploring the regulation of gene expression by insulin.

Mice lacking angiotensin-converting enzyme have low blood pressure, renal pathology, and reduced male fertility.

Mammals produce two isozymes of angiotensin-converting enzyme (ACE). Somatic ACE plays an important role in the control of blood pressure. The function of testis ACE, produced by male and germ cells, is not known. To examine the roles of these isozymes, we used targeted homologous recombination to introduce a modified ACE allele into a mouse line. Mice homozygous for this mutant allele lack both ACE isozymes and have markedly reduced blood pressures. Contrary to a previous report, we found heterozygous male mice to have normal blood pressures. Homozygous mutant mice also have severe renal disease. The renal papilla is markedly reduced, and the intrarenal arteries exhibit vascular hyperplasia associated with a perivascular inflammatory infiltrate. These animals cannot effectively concentrate urine. They also have an abnormally low urinary sodium to potassium ratio despite reduced levels of aldosterone. Homozygous mutant male mice sire significantly smaller litters than wild-type male mice; however, no defect in sperm number, morphology, or motility was detected. ACE-deficient animals demonstrate the role of this enzyme in systemic blood pressure, renal development and function, and male fertility.

Expression of testis angiotensin-converting enzyme is mediated by a cyclic AMP responsive element.

Testis angiotensin-converting enzyme (testis ACE), an ACE isozyme that plays an important role in male fertility, is transcribed from a unique promotor active only in developing spermatids. In vitro analysis suggests the importance of a cyclic AMP response element (CRE)-like region within the testis ACE promoter, and similar DNA motifs are important in the expression of a variety of testis-specific genes. In the present study, we examined the effects of mutations in the CRE-like element on testis ACE promoter activity in vivo using transgenic mice. Disruption of this element reduced reporter gene expression to near background levels. In contrast, conversion of the CRE-like element to a consensus CRE-binding site resulted in high level expression of the reporter gene specifically in the testis. These experiments prove that the CRE-like element is essential for testis ACE promoter activity, although it does not appear to be responsible for its tissue specificity. These data provide insight into how a phenotypically differentiated tissue, ie, male gem cells, regulate tissue-specific gene expression.

Different zeta globin gene deletions among black Americans.

Four types of chromosomes with a deletion between the human embryonic zeta and psi zeta globin genes were identified among 2.8% of 321 Black Americans from Georgia. Two deletions of approximately 11 kb which differed by about 300 bp occurred on chromosomes with or without a polymorphic Xba I site 5' to the zeta globin gene [(X+) or (X-)]. The deletions are identifiable in Xba I digests of genomic DNA using an alpha or a zeta globin gene probe which yield fragments of 23 kb from (X+)-zeta alpha alpha chromosomes or 27 kb from (X-)-zeta alpha alpha chromosomes. Digestion with other enzymes and probing with both alpha and zeta probes gave fragments typical of the two zeta globin gene deletions previously identified in Polynesians. Among Black Americans, these zeta globin gene deletions have been found in combination with alpha globin gene deletions in trans but not in cis. Homozygotes have not been found. Hematologic data on carriers of the zeta globin gene deletions in association with Hb AS, SS, and SC suggest that these deletions have no effect on the function of the adult alpha globin genes.