Oleate, not ligands of the receptor for advanced glycation end-products, promotes proliferation of human arterial smooth muscle cells.

AIMS/HYPOTHESIS: Diabetes accelerates cardiovascular disease caused by atherosclerosis. Accordingly, diabetes accelerates atherosclerotic lesion progression and increases arterial smooth muscle cell proliferation. We hypothesized that diabetes can exert growth-promoting effects on smooth muscle cells via increased advanced glycation end-products or by dyslipidaemia. METHODS: Primary human arterial smooth muscle cells were stimulated with advanced glycation end-products, other ligands of the receptor for advanced glycation end-products or fatty acids common in triglycerides. Cell proliferation was measured as DNA synthesis, cell cycle distribution and cell number. Effects of oleate on cellular phospholipids, diacylglycerol, triglycerides and cholesterol esters were analyzed by thin-layer chromatography, and oleate accumulation into diacylglycerol was confirmed by gas chromatography. RESULTS: Human arterial smooth muscle cells express the receptor for advanced glycation end-products, but its ligands N(epsilon)-(carboxymethyl)lysine-modified proteins, methylglyoxal-modified proteins, S100B polypeptide and amyloid-beta (1-40) peptide, exert no mitogenic action. Instead, oleate, one of the most common fatty acids in triglycerides, enhances platelet-derived growth factor-BB-mediated proliferation and oleate-containing 1,2-diacylglycerol formation in smooth muscle cells. This mitogenic effect of oleate depends on phospholipase D activity and is associated with an increased formation of oleate-enriched 1,2-diacylglycerol. CONCLUSION/INTERPRETATION: Oleate, not ligands of the receptor for advanced glycation end-products, acts as an enhancer of human smooth muscle cell proliferation. Thus, lipid abnormalities, rather than hyperglycaemia, could be a major factor promoting proliferation of smooth muscle cells in atherosclerotic lesions.

Adenylyl cyclase 3 mediates prostaglandin E(2)-induced growth inhibition in arterial smooth muscle cells.

Arterial smooth muscle cell (SMC) proliferation contributes to a number of vascular pathologies. Prostaglandin E(2) (PGE(2)), produced by the endothelium and by SMCs themselves, acts as a potent SMC growth inhibitor. The growth-inhibitory effects of PGE(2) are mediated through activation of G-protein-coupled membrane receptors, activation of adenylyl cyclases (ACs), formation of cAMP, and subsequent inhibition of mitogenic signal transduction pathways in SMCs. Of the 10 different mammalian AC isoforms known today, seven isoforms (AC2-7 and AC9) are expressed in SMCs from various species. We show that, despite the presence of several different AC isoforms, the principal AC isoform activated by PGE(2) in human arterial SMCs is a calmodulin kinase II-inhibited AC with characteristics similar to those of AC3. AC3 is expressed in isolated human arterial SMCs and in intact aorta. We further show that arterial SMCs isolated from AC3-deficient mice are resistant to PGE(2)-induced growth inhibition. In summary, AC3 is the principal AC isoform activated by PGE(2) in arterial SMCs, and AC3 mediates the growth-inhibitory effects of PGE(2). Because AC3 activity is inhibited by intracellular calcium through calmodulin kinase II, AC3 may serve as an important integrator of growth-inhibitory signals that stimulate cAMP formation and growth factors that increase intracellular calcium.

Diabetes accelerates smooth muscle accumulation in lesions of atherosclerosis: lack of direct growth-promoting effects of high glucose levels.

In combination with other factors, hyperglycemia may cause the accelerated progression of atherosclerosis in people with diabetes. Arterial smooth muscle cell (SMC) proliferation and accumulation contribute to formation of advanced atherosclerotic lesions. Therefore, we investigated the effects of hyperglycemia on SMC proliferation and accumulation in vivo and in isolated arteries and SMCs by taking advantage of a new porcine model of diabetes-accelerated atherosclerosis, in which diabetic animals are hyperglycemic without receiving exogenous insulin. We show that diabetic animals fed a cholesterol-rich diet, like humans, develop severe lesions of atherosclerosis characterized by SMC accumulation and proliferation, whereas lesions in nondiabetic animals contain fewer SMCs after 20 weeks. However, high glucose (25 mmol/l) does not directly stimulate the proliferation of SMCs in isolated arterial tissue from diabetic or nondiabetic animals, or of cultured SMCs from these animals or from humans. Furthermore, the mitogenic actions of platelet-derived growth factor, IGF-I, or serum are not enhanced by high glucose. High glucose increases SMC glucose metabolism through the citric acid cycle and the pentose phosphate pathway by 240 and 90%, respectively, but <10% of consumed glucose is metabolized through these pathways. Instead, most of the consumed glucose is converted into lactate and secreted by the SMCs. Thus, diabetes markedly accelerates SMC proliferation and accumulation in atherosclerotic lesions. The stimulatory effect of diabetes on SMCs is likely to be mediated by effects secondary to the hyperglycemic state.

Molecular analysis of CYP21 and C4 genes in Brazilian families with the classical form of steroid 21-hydroxylase deficiency.

The most common enzymatic defect of steroid synthesis is deficiency of the adrenal steroid 21-hydroxylase. Inhibition of the formation of cortisol results in an increased pituitary release of ACTH which in turn drives the adrenal cortex to overproduce androgens. This hormonal setting affects the development of genetic females by misdirecting the differentiation of external genitalia towards the male type. Since the isolation of the gene encoding 21-hydroxylase enzyme in 1984, gene deletions, large gene conversions, and microconversions have been reported to be responsible for the disease. In this paper, we report a study of this genetic defect in 22 families with one or more affected offspring diagnosed as having the classical form of congenital adrenal hyperplasia. The DNA from 30 patients was analyzed with three restriction enzymes. Hybridization with a 21-hydroxylase cDNA probe and the 5' end of a C4 genomic probe disclosed gene deletion in 7.3% (3/41) of the disease-related chromosomes. The rate of large gene conversion was 17.1% (7/41), and no abnormality in the hybridization pattern was observed in 75.6% (31/41) of the disease alleles. Densitometry of the autoradiographs was used to determine the ratio of the copy-number of the 21-hydroxylase gene (CYP21B) to the copy-number of its pseudogene (CYP21A). Differences in phenotype, the low frequency of gene deletion, and the high frequency of gene conversion compared with other studies in different populations indicated that 21-hydroxylase deficiency in the Brazilian population may involve different molecular mutations.

Molecular analysis of CYP21 and C4 genes in Brazilian families with the classical form of steroid 21-hydroxylase deficiency

The most common enzymatic defect of steroid synthesis is deficiency of the adrenal steroid 21-hydroxylase. Inhibition of the formation of cortisol results in an increased pituitary release of ACTH which in turn drives the adrenal cortex to overproduce androgens. This hormonal setting affects the development of genetic females by misdirecting the differentiation of external genitalia towards the male type. Since the isolation of the gene encoding 21-hydroxylase enzyme in 1984, gene deletions, large gene conversions, and microconversions have been reported to be responsible for the disease. In this paper, we report a study of this genetic defect in 22 families with one or more affected offspring diagnosed as having the classical form of congenital adrenal hyperplasia. The DNA from 30 patients was analyzed with three restriction enzymes. Hybridization with a 21-hydroxylase cDNA probe and the 5' end of a C4 genomic probe disclosed gene deletion in 7.3 percent (3/41) of the disease-related chromosomes. The rate of large gene conversion was 17.1 percent (7/41), and no abnormality in the hybridization pattern was observed in 75.6 percent (31/41) of the disease alleles. Densitometry of the autoradiographs was used to determine the ratio of the copy-number of the 2 1-hydroxylase gene (CYP21B) to the copy-number of its pseudogene (CYP21A). Differences in phenotype, the low frequency of gene deletion, and the high frequency of gene conversion compared with other studies in different populations indicated that 21-hydroxylase deficiency in the Brazilian population may involve different molecular mutations.

Ethnic differences of polymorphism of an immunoglobulin VH3 gene.

The VH26 germline gene occupies two different loci, due to gene duplication, and is one of the most frequently expressed human immunoglobulin VH genes. This report identifies the alleles of each VH26 locus and describes distinct patterns of VH26 polymorphism in three ethnic groups. Oligonucleotide probes targeting VH26 were used in sequence-specific RFLP analysis of DNA from 72 Caucasians, 52 Asians, 35 American Blacks, and members of six families. The A locus, on a 7.0-kb TaqI band, was detected in 89% of Caucasians, 75% of Asians, and 26% of Blacks (chi2 = P < 0.0005). The B locus, detected on a 5.0-kb band in nearly all subjects, was found to have additional alleles occurring at 6.8 kb in 10% of Asians and 3% of Blacks (chi2 = 7.8, P < 0.02) and at 3.7 kb in 1.4% of Caucasians, 21% of Asians, and (9% of Blacks (chi2 = 13.8, P < 0.001). In Asians, only, the 3.7-kb hybridization band represented a multiple-duplication unit containing three or four gene copies. Duplications of other VH26 alleles, and mull alleles of the B locus, were also seen. An exact VH26 sequence was cloned from the 5.0-kb allele and likely exists in the 7.0- and 6.8-kb alleles. A novel sequence cloned from the 3.7-kb allele differed from VH26 by nine nucleotides and appears to have evolved by gene conversion in CDR2. The total diploid gene dose of the A and B loci ranged from one to as many as six copies of VH26-containing genes, and from zero to as many as six to eight copies of the 3.7-kb allele. We conclude that ethnic differences in polymorphism exist at both VH26 loci. These differences could influence VH26 expression because they involve variations in gene copy number and coding region sequence.

Spontaneous talkers among students with learning disabilities: implications of right cerebral dysfunction.

Experimental studies and clinical observations have indicated that right-hemisphere lesions produce impulsive talkative behavior. An exploratory study was conducted to investigate whether right-cerebral dysfunction would be evident in the intelligence test scores of talkative students with learning disabilities. Limitations and implications of the study are discussed.

The role of sulfur-containing amino acids in superoxide production and modification of low density lipoprotein by arterial smooth muscle cells.

Extracellular superoxide (O2-.) was detected in cultures of monkey arterial smooth muscle cells as measured by the superoxide dismutase-inhibitable reduction of cytochrome c and acetylated cytochrome c. Reduction of cytochrome c by these cells required L-cystine in the incubation medium. A variety of other sulfur-containing amino acids, including D-cystine, L-cystathionine, L-methionine, and djenkolic acid did not support O2-. generation when present at concentrations equimolar to L-cystine. At millimolar concentrations, the chelators EDTA and diethylene triamine penta-acetic acid inhibited O2-. production by smooth muscle cells. This effect was maximal when the chelator was present at the same concentration as the sum of the Ca2+ and Mg2+ in the medium, suggesting a role for these cations in O2-. generation by cells. Modification of low density lipoprotein (LDL) by arterial smooth muscle cells, as assessed by changes in lipid peroxide content, mobility on agarose gel electrophoresis, and apoprotein B fragmentation, was also L-cystine-dependent. LDL modification also required micromolar concentrations of the transition metal ion Cu(II) or Fe(III) and was inhibited by superoxide dismutase. LDL modified by smooth muscle cells in the presence of L-cystine and Cu(II) was taken up and degraded less well than native LDL by human skin fibroblasts, suggesting that recognition by the LDL receptor was lost. In contrast, LDL modified by smooth muscle cells was taken up and degraded to a greater degree than native LDL by mouse peritoneal macrophages, consistent with recognition by the scavenger receptor. These results indicate that monkey arterial smooth muscle cells produce O2-. and modify LDL by an L-cystine-dependent process. This may involve reduction of cystine to a thiol, possibly cysteine or a cysteine-containing peptide such as glutathione. Sulfur-containing amino acids may play a role in atherogenesis by supporting cell-mediated generation of reactive oxygen species and modification of lipoprotein to a form recognized by the scavenger receptor.

Factor IX antigen by a rapid staphylococcal protein A-membrane binding radioimmunoassay: results in haemophilia B patients and carriers and in fetal samples.

Staphylococcal protein A-membranes have been used with isolated, radiolabelled factor IX and specified rabbit antisera for modification of a radioimmunoassay. The current method is a rapid 4 h procedure and dilution curves of plasma parallel those of isolated, unlabelled protein. Non-specific binding is 5%; the assay readily detects concentrations as low as 0.6 u/dl. Carrier detection of haemophilia B was improved and/or confirmed by the demonstration of factor IX antigen in excess of clotting activity in nine of 15 women tested from pedigrees in which the affected members had excess circulating antigen. Of 15 new haemophilia B pedigrees examined, 13 had antigen levels which were in two-fold or greater excess over their clotting activities; all but three were considerably below normal, however. To diagnose haemophilia B in newborns at risk, levels in three cord blood samples were tested; two were positive and the third was normal. Six fetal blood samples were assayed and contained from 4 to 20 u/dl factor IX antigen; levels correlated with fetal age.