Introduction of human apolipoprotein E4 “domain interaction” into mouse apolipoprotein E

RL Raffaï, LM Dong, RV Farese Jr… - Proceedings of the …, 2001 - National Acad Sciences
RL Raffaï, LM Dong, RV Farese Jr, KH Weisgraber
Proceedings of the National Academy of Sciences, 2001National Acad Sciences
Human apolipoprotein E4 (apoE4) binds preferentially to lower density lipoproteins,
including very low density lipoproteins, and is associated with increased risk of
atherosclerosis and neurodegenerative disorders, including Alzheimer's disease. This
binding preference is the result of the presence of Arg-112, which causes Arg-61 in the
amino-terminal domain to interact with Glu-255 in the carboxyl-terminal domain. ApoE2 and
apoE3, which have Cys-112, bind preferentially to high density lipoproteins (HDL) and do …
Human apolipoprotein E4 (apoE4) binds preferentially to lower density lipoproteins, including very low density lipoproteins, and is associated with increased risk of atherosclerosis and neurodegenerative disorders, including Alzheimer's disease. This binding preference is the result of the presence of Arg-112, which causes Arg-61 in the amino-terminal domain to interact with Glu-255 in the carboxyl-terminal domain. ApoE2 and apoE3, which have Cys-112, bind preferentially to high density lipoproteins (HDL) and do not display apoE4 domain interaction. Mouse apoE, like apoE4, contains the equivalent of Arg-112 and Glu-255, but lacks the critical Arg-61 equivalent (it contains Thr-61). Thus, mouse apoE does not display apoE4 domain interaction and, as a result, behaves like human apoE3, including preferential binding to HDL. To assess the potential role of apoE4 domain interaction in atherosclerosis and neurodegeneration, we sought to introduce apoE4 domain interaction into mouse apoE. Replacing Thr-61 in mouse apoE with arginine converted the binding preference from HDL to very low density lipoproteins in vitro, suggesting that apoE4 domain interaction could be introduced into mouse apoE in vivo. Using gene targeting in embryonic stem cells, we created mice expressing Arg-61 apoE. Heterozygous Arg-61/wild-type apoE mice displayed two phenotypes found in human apoE4/E3 heterozygotes: preferential binding to lower density lipoproteins and reduced abundance of Arg-61 apoE in the plasma, reflecting its more rapid catabolism. These findings demonstrate the successful introduction of apoE4 domain interaction into mouse apoE in vivo. The Arg-61 apoE mouse model will allow the effects of apoE4 domain interaction in lipoprotein metabolism, atherosclerosis, and neurodegeneration to be determined.
National Acad Sciences