Cultured fibroblasts from patients with familial hyperapobetalipoproteinemia (hyperapoB) were used to determine if a defect in lipid metabolism was present. Three basic proteins (BP I, BP H, and BP I) were isolated from normal human serum by preparative isoelectric focusing, preparative SDS/PAGE, and reversed-phase HPLC. The Mr and pI values of these proteins were 14,000 and 9.10 for BP I, 27,500 and 8.48 for BP H, and 55,000 and 8.73 for BP HI. These proteins differed significantly in their content of arginine, cysteine, proline, histidine, serine, and methionine. BP I appears to be the same protein as acylation-stimulating protein, In summary, the identification of another serum basic protein, BP H, led to the elucidation of another cellular defect in hyperapoB fibroblasts, enhanced cholesterol esterification, which may be related to the precocious atherosclerosis and abnormal lipoprotein metabolism seen in hyperapoB.
We studied whether serum basic proteins (BPs) produce abnormal changes in the mass of cellular lipids in fibroblasts from patients with hyperapobetalipoproteinemia (hyperapoB) and if inhibition or stimulation of protein kinase C affects these processes. In normal cells, BP I increased the mean mass of triglycerides about twofold, whereas there was significantly less stimulation in hyperapoB cells (P<.005). The increase in the mass of cell cholesteryl esters seen in normal cells with BP I was also significantly reduced in hyperapoB cells (P<.005). In contrast, BP II abnormally stimulated the mass of cell cholesteryl esters sixfold in hyperapoB cells (P<.005). BP I also stimulated the mass of total phospholipids about twofold in normal cells, an effect that was reduced by about one third in hyperapoB cells (P=.O8). No abnormality was found in hyperapoB cells with BP III. H-7, an inhibitor of protein kinase C, decreased the effects of BP I and BP II in normal and hyperapoB cells. C:8, an analogue of diacylglycerol, activated protein kinase C and stimulated triglyceride formation in normal (fourfold) and hyperapoB (fivefold) cells in the absence of BP I. When added with C:8, BP I further increased triglyceride production 1.5-fold in normal cells but not in hyperapoB cells. Two cellular abnormalities in lipid metabolism in hyperapoB fibroblasts were found, one with BP I, another with BP II. Protein kinase C activity was not deficient in hyperapoB cells, and the defect(s) may occur at another, perhaps earlier, step in the pathway. (ArterioscUr Thromb. 1994;14:l-7.)
Screening for HPV-driven cervical dysplasia and neoplasia is a significant public health concern in the developing world. The purpose of this study was to use a manual, low-cost liquid-based Pap preparation to determine HPV prevalence in HIV-positive and HIV-negative young women in Kampala, Uganda and to correlate cervical cytopathology with HPV-DNA genotype. About 196 post-partum women aged 18-30 years underwent rapid HIV testing and pelvic examination. Liquid-based cervical cytology samples were processed using a low-cost manual technique. A DNA collection device was used to collect specimens for HPV genotyping. HIV and HPV prevalence was 18 and 64%, respectively. Overall, 49% of women were infected with a high-risk HPV genotype. The most common high-risk HPV genotypes were 16 (8.2%), 33 (7.7%), 35 (6.6%), 45 (5.1%), and 58 (5.1%). The prevalence of HPV 18 was 3.6%. HIV-positive women had an HPV prevalence of 86% compared to 59% in HIV-negative women (P = 0.003). The prevalence of HPV 16/18 did not differ by HIV status. HIV-positive women were infected with a significantly greater number of HPV genotypes compared to HIV-negative women. By multivariate analysis, the main risk factor for HPV infection was coinfection with HIV. HIV-positive women were four times more likely to have abnormal cytology than HIV-negative women (43% vs. 11.6%, P < 0.001). These data highlight that HIV infection is a strong risk factor for HPV infection and resultant abnormal cervical cytology. Notably, the manual low-cost liquid-based Pap preparation is practical in this setting and offers an alternate method for local studies of HPV vaccine efficacy.
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