Impaired metabolism of high density lipoprotein in uremic patients

Impaired metabolism of high density lipoprotein in uremic patients. We measured lipoproteins, apolipoproteins, lipoprotein lipase (LPL), hepatic triglyceride lipase (HTGL), lecithin: cholesterol acyltransferase (LCAT) and parameters of calcium metabolism to evaluate the roles of these enzymes and hy...

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Veröffentlicht in:	Kidney international 1992-06, Vol.41 (6), p.1653-1661
Hauptverfasser:	Shoji, Tetsuo, Nishizawa, Yoshiki, Nishitani, Hiroshi, Yamakawa, Makoto, Morii, Hirotoshi
Format:	Artikel
Sprache:	eng
Schlagworte:	Apolipoproteins - blood Biological and medical sciences Calcium - metabolism Female Humans Hypertriglyceridemia - etiology Hypertriglyceridemia - metabolism Lipase - metabolism Lipoprotein Lipase - metabolism Lipoproteins - blood Lipoproteins, HDL - blood Lipoproteins, HDL - metabolism Male Medical sciences Middle Aged Nephrology. Urinary tract diseases Nephropathies. Renovascular diseases. Renal failure Peritoneal Dialysis, Continuous Ambulatory - adverse effects Phosphatidylcholine-Sterol O-Acyltransferase - metabolism Renal Dialysis - adverse effects Renal failure Uremia - complications Uremia - metabolism Uremia - therapy
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container_title	Kidney international
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creator	Shoji, Tetsuo Nishizawa, Yoshiki Nishitani, Hiroshi Yamakawa, Makoto Morii, Hirotoshi
description	Impaired metabolism of high density lipoprotein in uremic patients. We measured lipoproteins, apolipoproteins, lipoprotein lipase (LPL), hepatic triglyceride lipase (HTGL), lecithin: cholesterol acyltransferase (LCAT) and parameters of calcium metabolism to evaluate the roles of these enzymes and hypertriglyceridemia for impaired high-density lipoprotein (HDL) metabolism in chronic renal failure, and to examine the impact of altered calcium homeostasis on the lipoprotein-regulating enzymes. The subjects were 25 healthy volunteers and 66 uremic patients, 24 treated with hemodialysis (HD) and 42 with continuous ambulatory peritoneal dialysis (CAPD). Lipoprotein analysis revealed: (1) reduction in HDL cholesterol especially in HDL2 subfraction; (2) increase in HDL triglyceride; and (3) decreased ratio of HDL2 cholesterol to HDL3 cholesterol in both HD and CAPD patients. Simple regression analysis showed: (1) a positive correlation between VLDL triglyceride and triglycéride/cholestérol ratio of HDL; (2) positive correlations of LPL level in post-heparin plasma to cholesterol concentrations in HDL2, HDL3 and total HDL, and to apolipoproteins A-I and A-II; and (3) inverse correlations of HTGL to HDL2 cholesterol and to the ratio of HDL2 cholesterol/HDL3 cholesterol. Multiple regression analysis of HDL cholesterol indicated positive association with LPL and inverse correlation with VLDL triglyceride. Four variables including LPL, HTGL, LCAT and VLDL triglyceride explained 51.5% of the variation of HDL cholesterol. HDL2 cholesterol was associated positively with LPL and negatively with VLDL triglyceride in the model. HDL3 cholesterol was associated positively with LPL, HTGL and LCAT and inversely with VLDL triglyceride. Stepwise multiple regression analysis indicated that independent predictors of HTGL were gender, parathyroid hormone levels by a mid-portion assay, ionized calcium and age, and that those of LCAT were ionized calcium and age. These results suggest that elevated VLDL and alterations in the enzyme levels contributed to deranged HDL metabolism in uremic patients, and that changes in the enzyme levels were associated with impaired calcium homeostasis.
doi_str_mv	10.1038/ki.1992.238
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We measured lipoproteins, apolipoproteins, lipoprotein lipase (LPL), hepatic triglyceride lipase (HTGL), lecithin: cholesterol acyltransferase (LCAT) and parameters of calcium metabolism to evaluate the roles of these enzymes and hypertriglyceridemia for impaired high-density lipoprotein (HDL) metabolism in chronic renal failure, and to examine the impact of altered calcium homeostasis on the lipoprotein-regulating enzymes. The subjects were 25 healthy volunteers and 66 uremic patients, 24 treated with hemodialysis (HD) and 42 with continuous ambulatory peritoneal dialysis (CAPD). Lipoprotein analysis revealed: (1) reduction in HDL cholesterol especially in HDL2 subfraction; (2) increase in HDL triglyceride; and (3) decreased ratio of HDL2 cholesterol to HDL3 cholesterol in both HD and CAPD patients. Simple regression analysis showed: (1) a positive correlation between VLDL triglyceride and triglycéride/cholestérol ratio of HDL; (2) positive correlations of LPL level in post-heparin plasma to cholesterol concentrations in HDL2, HDL3 and total HDL, and to apolipoproteins A-I and A-II; and (3) inverse correlations of HTGL to HDL2 cholesterol and to the ratio of HDL2 cholesterol/HDL3 cholesterol. Multiple regression analysis of HDL cholesterol indicated positive association with LPL and inverse correlation with VLDL triglyceride. Four variables including LPL, HTGL, LCAT and VLDL triglyceride explained 51.5% of the variation of HDL cholesterol. HDL2 cholesterol was associated positively with LPL and negatively with VLDL triglyceride in the model. HDL3 cholesterol was associated positively with LPL, HTGL and LCAT and inversely with VLDL triglyceride. Stepwise multiple regression analysis indicated that independent predictors of HTGL were gender, parathyroid hormone levels by a mid-portion assay, ionized calcium and age, and that those of LCAT were ionized calcium and age. 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We measured lipoproteins, apolipoproteins, lipoprotein lipase (LPL), hepatic triglyceride lipase (HTGL), lecithin: cholesterol acyltransferase (LCAT) and parameters of calcium metabolism to evaluate the roles of these enzymes and hypertriglyceridemia for impaired high-density lipoprotein (HDL) metabolism in chronic renal failure, and to examine the impact of altered calcium homeostasis on the lipoprotein-regulating enzymes. The subjects were 25 healthy volunteers and 66 uremic patients, 24 treated with hemodialysis (HD) and 42 with continuous ambulatory peritoneal dialysis (CAPD). Lipoprotein analysis revealed: (1) reduction in HDL cholesterol especially in HDL2 subfraction; (2) increase in HDL triglyceride; and (3) decreased ratio of HDL2 cholesterol to HDL3 cholesterol in both HD and CAPD patients. Simple regression analysis showed: (1) a positive correlation between VLDL triglyceride and triglycéride/cholestérol ratio of HDL; (2) positive correlations of LPL level in post-heparin plasma to cholesterol concentrations in HDL2, HDL3 and total HDL, and to apolipoproteins A-I and A-II; and (3) inverse correlations of HTGL to HDL2 cholesterol and to the ratio of HDL2 cholesterol/HDL3 cholesterol. Multiple regression analysis of HDL cholesterol indicated positive association with LPL and inverse correlation with VLDL triglyceride. Four variables including LPL, HTGL, LCAT and VLDL triglyceride explained 51.5% of the variation of HDL cholesterol. HDL2 cholesterol was associated positively with LPL and negatively with VLDL triglyceride in the model. HDL3 cholesterol was associated positively with LPL, HTGL and LCAT and inversely with VLDL triglyceride. Stepwise multiple regression analysis indicated that independent predictors of HTGL were gender, parathyroid hormone levels by a mid-portion assay, ionized calcium and age, and that those of LCAT were ionized calcium and age. These results suggest that elevated VLDL and alterations in the enzyme levels contributed to deranged HDL metabolism in uremic patients, and that changes in the enzyme levels were associated with impaired calcium homeostasis.</description><subject>Apolipoproteins - blood</subject><subject>Biological and medical sciences</subject><subject>Calcium - metabolism</subject><subject>Female</subject><subject>Humans</subject><subject>Hypertriglyceridemia - etiology</subject><subject>Hypertriglyceridemia - metabolism</subject><subject>Lipase - metabolism</subject><subject>Lipoprotein Lipase - metabolism</subject><subject>Lipoproteins - blood</subject><subject>Lipoproteins, HDL - blood</subject><subject>Lipoproteins, HDL - metabolism</subject><subject>Male</subject><subject>Medical sciences</subject><subject>Middle Aged</subject><subject>Nephrology. Urinary tract diseases</subject><subject>Nephropathies. Renovascular diseases. Renal failure</subject><subject>Peritoneal Dialysis, Continuous Ambulatory - adverse effects</subject><subject>Phosphatidylcholine-Sterol O-Acyltransferase - metabolism</subject><subject>Renal Dialysis - adverse effects</subject><subject>Renal failure</subject><subject>Uremia - complications</subject><subject>Uremia - metabolism</subject><subject>Uremia - therapy</subject><issn>0085-2538</issn><issn>1523-1755</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>1992</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNptkEtLAzEQgIMotVZPnoU9iBfZmscmu3vU4qNQ8KLnkM1ObOy-TLJC_70pLXoRBoaZ-ZgZPoQuCZ4TzIq7jZ2TsqRzyoojNCWcspTknB-jKcYFTylnxSk68_4Tx7pkeIImhGOSUTpFD8t2UNZBnbQQVNU31rdJb5K1_VgnNXTehm3S2KEfXB_AdkmM0UFrdTKoYKEL_hydGNV4uDjkGXp_enxbvKSr1-fl4n6V6kzQkNZYC65xqXFeiVzU2giVGWJMUdVQaMg4htgVRpQ6NyVTeUYopaAqwlgmOJuhm_3e-MrXCD7I1noNTaM66Ecvc0aIyEoawds9qF3vvQMjB2db5baSYLkzJjdW7ozJaCzSV4e1Y9VC_cfuFcX59WGuvFaNcarT1v9inHPGSRYxvscgKvi24KTXUY-GOtrVQda9_ff8D8VZhXs</recordid><startdate>19920601</startdate><enddate>19920601</enddate><creator>Shoji, Tetsuo</creator><creator>Nishizawa, Yoshiki</creator><creator>Nishitani, Hiroshi</creator><creator>Yamakawa, Makoto</creator><creator>Morii, Hirotoshi</creator><general>Elsevier Inc</general><general>Nature Publishing</general><scope>6I.</scope><scope>AAFTH</scope><scope>IQODW</scope><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7X8</scope></search><sort><creationdate>19920601</creationdate><title>Impaired metabolism of high density lipoprotein in uremic patients</title><author>Shoji, Tetsuo ; Nishizawa, Yoshiki ; Nishitani, Hiroshi ; Yamakawa, Makoto ; Morii, Hirotoshi</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c462t-d0c65c09c07b676dcf6a4f1ff8bde8ce450e6dc6f69c7f93a741222eab1334653</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>1992</creationdate><topic>Apolipoproteins - blood</topic><topic>Biological and medical sciences</topic><topic>Calcium - metabolism</topic><topic>Female</topic><topic>Humans</topic><topic>Hypertriglyceridemia - etiology</topic><topic>Hypertriglyceridemia - metabolism</topic><topic>Lipase - metabolism</topic><topic>Lipoprotein Lipase - metabolism</topic><topic>Lipoproteins - blood</topic><topic>Lipoproteins, HDL - blood</topic><topic>Lipoproteins, HDL - metabolism</topic><topic>Male</topic><topic>Medical sciences</topic><topic>Middle Aged</topic><topic>Nephrology. Urinary tract diseases</topic><topic>Nephropathies. Renovascular diseases. Renal failure</topic><topic>Peritoneal Dialysis, Continuous Ambulatory - adverse effects</topic><topic>Phosphatidylcholine-Sterol O-Acyltransferase - metabolism</topic><topic>Renal Dialysis - adverse effects</topic><topic>Renal failure</topic><topic>Uremia - complications</topic><topic>Uremia - metabolism</topic><topic>Uremia - therapy</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Shoji, Tetsuo</creatorcontrib><creatorcontrib>Nishizawa, Yoshiki</creatorcontrib><creatorcontrib>Nishitani, Hiroshi</creatorcontrib><creatorcontrib>Yamakawa, Makoto</creatorcontrib><creatorcontrib>Morii, Hirotoshi</creatorcontrib><collection>ScienceDirect Open Access Titles</collection><collection>Elsevier:ScienceDirect:Open Access</collection><collection>Pascal-Francis</collection><collection>Medline</collection><collection>MEDLINE</collection><collection>MEDLINE (Ovid)</collection><collection>MEDLINE</collection><collection>MEDLINE</collection><collection>PubMed</collection><collection>CrossRef</collection><collection>MEDLINE - Academic</collection><jtitle>Kidney international</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Shoji, Tetsuo</au><au>Nishizawa, Yoshiki</au><au>Nishitani, Hiroshi</au><au>Yamakawa, Makoto</au><au>Morii, Hirotoshi</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Impaired metabolism of high density lipoprotein in uremic patients</atitle><jtitle>Kidney international</jtitle><addtitle>Kidney Int</addtitle><date>1992-06-01</date><risdate>1992</risdate><volume>41</volume><issue>6</issue><spage>1653</spage><epage>1661</epage><pages>1653-1661</pages><issn>0085-2538</issn><eissn>1523-1755</eissn><coden>KDYIA5</coden><abstract>Impaired metabolism of high density lipoprotein in uremic patients. We measured lipoproteins, apolipoproteins, lipoprotein lipase (LPL), hepatic triglyceride lipase (HTGL), lecithin: cholesterol acyltransferase (LCAT) and parameters of calcium metabolism to evaluate the roles of these enzymes and hypertriglyceridemia for impaired high-density lipoprotein (HDL) metabolism in chronic renal failure, and to examine the impact of altered calcium homeostasis on the lipoprotein-regulating enzymes. The subjects were 25 healthy volunteers and 66 uremic patients, 24 treated with hemodialysis (HD) and 42 with continuous ambulatory peritoneal dialysis (CAPD). Lipoprotein analysis revealed: (1) reduction in HDL cholesterol especially in HDL2 subfraction; (2) increase in HDL triglyceride; and (3) decreased ratio of HDL2 cholesterol to HDL3 cholesterol in both HD and CAPD patients. Simple regression analysis showed: (1) a positive correlation between VLDL triglyceride and triglycéride/cholestérol ratio of HDL; (2) positive correlations of LPL level in post-heparin plasma to cholesterol concentrations in HDL2, HDL3 and total HDL, and to apolipoproteins A-I and A-II; and (3) inverse correlations of HTGL to HDL2 cholesterol and to the ratio of HDL2 cholesterol/HDL3 cholesterol. Multiple regression analysis of HDL cholesterol indicated positive association with LPL and inverse correlation with VLDL triglyceride. Four variables including LPL, HTGL, LCAT and VLDL triglyceride explained 51.5% of the variation of HDL cholesterol. HDL2 cholesterol was associated positively with LPL and negatively with VLDL triglyceride in the model. HDL3 cholesterol was associated positively with LPL, HTGL and LCAT and inversely with VLDL triglyceride. Stepwise multiple regression analysis indicated that independent predictors of HTGL were gender, parathyroid hormone levels by a mid-portion assay, ionized calcium and age, and that those of LCAT were ionized calcium and age. These results suggest that elevated VLDL and alterations in the enzyme levels contributed to deranged HDL metabolism in uremic patients, and that changes in the enzyme levels were associated with impaired calcium homeostasis.</abstract><cop>New York, NY</cop><pub>Elsevier Inc</pub><pmid>1501422</pmid><doi>10.1038/ki.1992.238</doi><tpages>9</tpages><oa>free_for_read</oa></addata></record>
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subjects	Apolipoproteins - blood Biological and medical sciences Calcium - metabolism Female Humans Hypertriglyceridemia - etiology Hypertriglyceridemia - metabolism Lipase - metabolism Lipoprotein Lipase - metabolism Lipoproteins - blood Lipoproteins, HDL - blood Lipoproteins, HDL - metabolism Male Medical sciences Middle Aged Nephrology. Urinary tract diseases Nephropathies. Renovascular diseases. Renal failure Peritoneal Dialysis, Continuous Ambulatory - adverse effects Phosphatidylcholine-Sterol O-Acyltransferase - metabolism Renal Dialysis - adverse effects Renal failure Uremia - complications Uremia - metabolism Uremia - therapy
title	Impaired metabolism of high density lipoprotein in uremic patients
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