Syndecan-1 is the primary heparan sulfate proteoglycan mediating hepatic clearance of triglyceride-rich lipoproteins in mice
Kristin I. Stanford, … , Joseph L. Witztum, Jeffrey D. Esko
Kristin I. Stanford, … , Joseph L. Witztum, Jeffrey D. Esko
Published October 1, 2009
Citation Information: J Clin Invest. 2009;119(11):3236-3245. https://doi.org/10.1172/JCI38251.
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Syndecan-1 is the primary heparan sulfate proteoglycan mediating hepatic clearance of triglyceride-rich lipoproteins in mice

Abstract

Elevated plasma triglyceride levels represent a risk factor for premature atherosclerosis. In mice, accumulation of triglyceride-rich lipoproteins can occur if sulfation of heparan sulfate in hepatocytes is diminished, as this alters hepatic lipoprotein clearance via heparan sulfate proteoglycans (HSPGs). However, the relevant HSPG has not been determined. In this study, we found by RT-PCR analysis that mouse hepatocytes expressed the membrane proteoglycans syndecan-1, -2, and -4 and glypican-1 and -4. Analysis of available proteoglycan-deficient mice showed that only syndecan-1 mutants (Sdc1–/– mice) accumulated plasma triglycerides. Sdc1–/– mice also exhibited prolonged circulation of injected human VLDL and intestinally derived chylomicrons. We found that mice lacking both syndecan-1 and hepatocyte heparan sulfate did not display accentuated triglyceride accumulation compared with single mutants, suggesting that syndecan-1 is the primary HSPG mediating hepatic triglyceride clearance. Immunoelectron microscopy showed that syndecan-1 was expressed specifically on the microvilli of hepatocyte basal membranes, facing the space of Disse, where lipoprotein uptake occurs. Abundant syndecan-1 on wild-type murine hepatocytes exhibited saturable binding of VLDL and inhibition by heparin and facilitated degradation of VLDL. Furthermore, adenovirus-encoded syndecan-1 restored binding, uptake, and degradation of VLDL in isolated Sdc1–/– hepatocytes and the lipoprotein clearance defect in Sdc1–/– mice. These findings provide the first in vivo genetic evidence that syndecan-1 is the primary hepatocyte HSPG receptor mediating the clearance of both hepatic and intestinally derived triglyceride-rich lipoproteins.

Authors

Kristin I. Stanford, Joseph R. Bishop, Erin M. Foley, Jon C. Gonzales, Ingrid R. Niesman, Joseph L. Witztum, Jeffrey D. Esko

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Figure 4

Hypertriglyceridemia and delayed clearance of dietary lipids in Sdc1–/– and Ndst1f/fAlbCre+ mice are not additive traits.

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Hypertriglyceridemia and delayed clearance of dietary lipids in Sdc1–/– ...
(A) Plasma triglycerides were measured in plasma samples from fasted mice. There was no difference in plasma triglycerides in Sdc1–/–Ndst1f/fAlbCre+ (triangles, n = 9), Sdc1–/–Ndst1f/fAlbCre (open circles, n = 7), and Ndst1f/fAlbCre+ (squares, n = 7) mice, although all 3 genotypes were significantly elevated above the wild-type, Ndst1f/fAlbCre (closed circles, n = 13). Horizontal bars indicate mean values. (B) Retinol ester excursions were measured at the times indicated in wild-type (filled circles, n = 3), Sdc1–/– (open circles, n = 3), Ndst1f/fAlbCre+ (squares, n = 3), and Sdc1–/–Ndst1f/fAlbCre+(triangles, n = 3) mice. Animals were fasted for 4 hours in the morning and given 200 μl of corn oil containing [3H]retinol by gavage. Blood samples were taken at the indicated times, and radioactivity remaining in 10 μl of serum was determined by scintillation counting. The values are expressed as mean ± SD. The areas under the curves were 4,100 ± 1,200 for wild-type, 8,400 ± 300 for Sdc1–/–, 8,300 ± 400 for Ndst1f/fAlbCre+, and 6,900 ± 1,000 for Sdc1–/–Ndst1f/fAlbCre+ mice. Clearance was significantly delayed in the Sdc1–/– mice compared with wild-type (P = 0.0034), whereas the difference observed between Sdc1–/– and Sdc1–/–Ndst1f/fAlbCre+ animals was not significant (P = 0.1373).