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(Hypertension. 1998;32:215-222.)
© 1998 American Heart Association, Inc.

Scientific Contributions

Conditioned Medium From HepG2 Cells Transfected With Human Apolipoprotein(a) Gene Stimulates Growth of Human Vascular Smooth Muscle Cells

Effects of Overexpression of Human Apolipoprotein(a) Gene

Ryuichi Morishita; Shingo Yamada; Jitsuo Higaki; Naruya Tomita; Iwao Kida; Motokuni Aoki; Atsushi Moriguchi; Shin-ichiro Hayashi; Ikunosuke Sakurabayashi; Yasufumi Kaneda; ; Toshio Ogihara

From the Department of Geriatric Medicine (R.M., J.H., N.T., I.K., M.A., A.M., S.H., T.O.) and the Institute for Molecular and Cellular Biology (Y.K.), Osaka University Medical School, Suita; Shinotest Co, Tokyo (S.Y.); and the Ohmiya Medical Center, Jichi Medical School, Omiya (I.S.), Japan.

Correspondence to Toshio Ogihara, MD, PhD, Department of Geriatric Medicine, Osaka University Medical School, Suita 565, Japan.

Abstract—Lipoprotein(a) [Lp(a)] is well known to stimulate growth of vascular smooth muscle cells (VSMCs), resulting in atherosclerosis. Its mechanism is postulated to be decreased in active transforming growth factor (TGF)-ß. However, the exact mechanisms and cellular processing from apolipoprotein(a) [apo(a)] to Lp(a) have not yet been clarified because no cultured cells producing apo(a) are available. Therefore, it is necessary to establish apo(a)-producing cells to study the role of apo(a). We evaluated the effects of overexpression of human apo(a) gene on human aortic VSMC growth. First, we tested whether transfection of apo(a) gene into human hepatoma cells, HepG2 cells, producing human apoB resulted in the formation of Lp(a). Transfection of apo(a) gene into HepG2 cells resulted in detectable levels of Lp(a) in the medium, as assessed by ELISA and Western blot, whereas no Lp(a) was detected in the medium of HepG2 cells transfected with control vector and untransfected HepG2 cells. Expression of apo(a) mRNA was also confirmed by reverse transcription–polymerase chain reaction. In contrast, Western blotting showed a single band detected by specific anti-apo(a) antibody, but not anti-apoB antibody, in the medium of apo(a)-transfected VSMCs. These results demonstrate that Lp(a) can be formed from apo(a) on HepG2 cells, whereas transfection of apo(a) gene into VSMCs resulted in the production of apo(a) alone but not Lp(a). Next, we examined the biological effects of overexpression of apo(a) gene on growth of VSMCs and endothelial cells. Incubation of cultured medium of HepG2 cells transfected with apo(a) gene with human VSMCs or endothelial cells resulted in a significant increase in cell number compared with the conditioned medium of HepG2 cells transfected with control vector. In contrast, transfection of apo(a) gene directly into VSMCs caused no significant effect on VSMC growth. Therefore, we measured TGF-ß concentration in the conditioned medium of VSMCs. However, using ELISA, only latent but not active TGF-ß was detected in the medium of VSMCs. Moreover, addition of neutralizing anti–TGF-ß antibody did not alter VSMC growth. These results suggest that Lp(a) could stimulate growth of VSMCs via the independent mechanisms from the inhibition of TGF-ß activation. Overall, these data demonstrate that overexpression of apo(a) gene in cells producing apoB results in formation of Lp(a), resulting in a mitogenic action on human endothelial cells and VSMCs. These results provide new information to understand the mechanisms of the mitogenic action of Lp(a) and suggest the role of Lp(a) in the pathogenesis of atherosclerosis.

Key Words: atherosclerosis • transforming growth factors • hyperplasia • liposomes • gene transfer

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