BOTH INHERITED SUSCEPTIBILITY AND ENVIRONMENTAL EXPOSURE DETERMINE THE LOW-DENSITY-LIPOPROTEIN SUBFRACTION PATTERN DISTRIBUTION IN HEALTHY DUTCH FAMILIES

A lipoprotein profile characterized by a predominance of small, dense, low-density lipoprotein (LDL) particles has been associated with an increased risk of atherosclerosis. To investigate whether genetic factors are involved in determining this heavy LDL subfraction pattern, this study was undertaken with the aim of resolving the effects that major genes, multifactorial heritability, and environmental exposures have on the LDL subfraction pattern. In a random sample of 19 healthy Dutch families including 162 individuals, the distribution of the LDL subfraction pattern was determined by density gradient ultracentrifugation. For each subject a specific LDL subfraction profile was observed, characterized by the relative contribution of the three major LDL subfractions-LDL1 (d = 1.030-1.033 g/ml), LDL2 (d = 1.033-1.040 g/ml), and LDL3 (d = 1.040-1.045 g/ml) - to total LDL. A continuous variable, parameter K, was defined to characterize each individual LDL subfraction pattern. Complex segregation analysis of this quantitative trait, under a model which includes a major locus, polygenes, and both common and random environment, was applied to analyze the distribution of the LDL subfraction pattern in these families. The results indicate that the LDL subfraction pattern, described by parameter K, is controlled by a major autosomal, highly penetrant, recessive allele with a population frequency of .19 and an additional multifactorial inheritance component. The penetrance of the more dense LDL subfraction patterns, characterized by values of K < 0, was dependent on age, gender, and, in women, on oral contraceptive use and postmenopausal status. Furthermore, multiple regression analysis revealed that approximately 60% of the variation in the LDL subfraction pattern could be accounted for by alterations in age, gender, relative body weight, smoking habits, hormonal status in women, and lipid and lipoprotein levels. In conclusion, our results indicate that genetic influences as well as environmental exposure, sex, age and hormonal status in women are important in determining the distribution of the LDL subfraction patterns in this population and that these influences may contribute to the explanation of familial clustering of coronary heart disease.