Robert L. Chen scite author profile

Endostatin, a collagen XVIII fragment, is a potent anti-angiogenic protein. We sought to identify its endothelial cell surface receptor(s). Alkaline phosphatase- tagged endostatin bound endothelial cells revealing two binding affinities. Expression cloning identified glypican, a cell surface proteoglycan as the lower-affinity receptor. Biochemical and genetic studies indicated that glypicans' heparan sulfate glycosaminoglycans were critical for endostatin binding. Furthermore, endostatin selected a specific octasulfated hexasaccharide from a sequence in heparin. We have also demonstrated a role for endostatin in renal tubular cell branching morphogenesis and show that glypicans serve as low-affinity receptors for endostatin in these cells, as in endothelial cells. Finally, antisense experiments suggest the critical importance of glypicans in mediating endostatin activities.

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Mechanisms Underlying Preferential Assembly of Heparan Sulfate on Glypican-1

Chen¹,

Lander

2001

Journal of Biological Chemistry

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Glypicans are major cell surface heparan sulfate proteoglycans, the structures of which are characterized by the presence of a cysteine-rich globular domain, a short glycosaminoglycan (GAG) attachment region, and a glycosylphosphatidylinositol membrane anchor. Despite strong evolutionary conservation of the globular domains of glypicans, no function has yet been attributed to them. By using a novel quantitative approach for assessing proteoglycan glycosylation, we show here that removal of the globular domain from rat glypican-1 converts the proteoglycan from one that bears ϳ90% heparan sulfate (HS) to one that bears ϳ90% chondroitin sulfate. Mutational analysis shows that sequences at least 70 amino acids away from the glypican-1 GAG attachment site are required for preferential HS assembly, although more nearby sequences also play a role. The effects of the glypican-1 globular domain on HS assembly could also be demonstrated by fusing this domain to sequences representing the GAG attachment sites of other proteoglycans or, surprisingly, simply by expressing the isolated globular domain in cells and analyzing effects either on an exogenously expressed glypican-1 GAG attachment domain or on endogenous proteoglycans. Quantitative analysis of the effect of the globular domain on GAG addition to proteoglycan core proteins suggested that preferential HS assembly is achieved, at least in part, through the inhibition of chondroitin sulfate assembly. These data identify the glypican-1 globular domain as a structural motif that potently influences GAG class determination and suggest that an important role of glypican globular domains is to ensure a high level of HS substitution of these proteoglycans.

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Optimal planning method with restrictive constraints for high‐rise buildings

Huang¹,

Wang

Chen

2006

Journal of the Chinese Institute of Engineers

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Network techniques have been used to perform project planning for several decades. These techniques, usually developed as general methods, do not consider the characteristics of each type of construction. After analyzing the characteristics of reinforced concrete high-rise buildings, the concept of recurrence is employed in this study to derive an optimal building planning method (OBPM), in which four constraints essential to the OBPM such as single-upward work space, building inspection, reuse of beam forms, and reuse of slab forms are included. The OBPM is developed in mathematical fashion and can be easily implemented in spreadsheet software for computerization. In comparison with other planning methods, the OBPM is more suitable and effective for high-rise building construction.

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Robert L. Chen

Cell Surface Glypicans Are Low-Affinity Endostatin Receptors

Mechanisms Underlying Preferential Assembly of Heparan Sulfate on Glypican-1

Optimal planning method with restrictive constraints for high‐rise buildings

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