Abstract
We investigated in vivo catabolism of apolipoprotein A-II (apo A-II), a major determinant of plasma HDL levels. Like apoA-I, murine apoA-II (mapoA-II) and human apoA-II (hapoA-II) were reabsorbed in the first segment of kidney proximal tubules of control and hapoA-II-transgenic mice, respectively. ApoA-II colocalized in brush border membranes with cubilin and megalin (the apoA-I receptor and coreceptor, respectively), with mapoA-I in intracellular vesicles of tubular epithelial cells, and was targeted to lysosomes, suggestive of degradation. By use of three transgenic lines with plasma hapoA-II concentrations ranging from normal to three times higher, we established an association between plasma concentration and renal catabolism of hapoA-II. HapoA-II was rapidly internalized in yolk sac epithelial cells expressing high levels of cubilin and megalin, colocalized with cubilin and megalin on the cell surface, and effectively competed with apoA-I for uptake, which was inhibitable by anti-cubilin antibodies. Kidney cortical cells that only express megalin internalized LDL but not apoA-II, apoA-I, or HDL, suggesting that megalin is not an apoA-II receptor. We show that apoA-II is efficiently reabsorbed in kidney proximal tubules in relation to its plasma concentration.
Highlights
We investigated in vivo catabolism of apolipoprotein A-II, a major determinant of plasma HDL levels
ApoA-II is reabsorbed in kidney proximal tubules Figure 1A, B shows that mapoA-II and hapoA-II are reabsorbed in epithelial cells of kidney proximal tubules of control and hapoA-II-transgenic mice, respectively
Because anti-mapoA-II antibody cross-reacted to some degree with hapoA-II, mapoA-II immunostaining in kidney of hapoA-II-transgenic mice is not shown
Summary
We investigated in vivo catabolism of apolipoprotein A-II (apo A-II), a major determinant of plasma HDL levels. Like apoA-I, murine apoA-II (mapoA-II) and human apoA-II (hapoA-II) were reabsorbed in the first segment of kidney proximal tubules of control and hapoA-II-transgenic mice, respectively. Supplementary key words high density lipoprotein & cubilin & megalin & proximal tubule & yolk sac cells & mouse kidney cortical cells & transgenic mice very low plasma HDL levels [1, 2]. The ratio of human apoA-II (hapoA-II)/apoA-I is a key determinant of plasma HDL concentration in hapoA-IItransgenic mice [5, 6]. A kinetic study using stable isotopes has suggested that plasma apoA-II levels are regulated by its rate of synthesis and not by its rate of catabolism [11].
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