Sterol A-ring plasticity in hedgehog protein cholesterolysis supports a primitive substrate selectivity mechanism

Cholesterolysis of Hedgehog family proteins couples endoproteolysis to protein C-terminal sterylation. The transformation is self-catalyzed by HhC, a partially characterized enzymatic domain found in precursor forms of Hedgehog. Here we explore spatial ambiguity in sterol recognition by HhC, using a...

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Veröffentlicht in:	Chemical communications (Cambridge, England) England), 2019-02, Vol.55 (12), p.1829-1832
Hauptverfasser:	Ciulla, Daniel A, Wagner, Andrew G, Liu, Xinyue, Cooper, Courtney L, Jorgensen, Michael T, Wang, Chunyu, Goyal, Puja, Banavali, Nilesh K, Pezzullo, John L, Giner, José-Luis, Callahan, Brian P
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Sprache:	eng
Schlagworte:	Binding Sites Cholesterol Cholesterol - chemistry Cholesterol - metabolism Docking Fluorescence Resonance Energy Transfer Hedgehog Proteins - chemistry Hedgehog Proteins - metabolism Homology Humans Hydrophobicity Kinetics Protein Structure, Tertiary Proteins Recognition Selectivity Sterols Sterols - chemistry Substrate Specificity Substrates
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container_end_page	1832
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container_title	Chemical communications (Cambridge, England)
container_volume	55
creator	Ciulla, Daniel A Wagner, Andrew G Liu, Xinyue Cooper, Courtney L Jorgensen, Michael T Wang, Chunyu Goyal, Puja Banavali, Nilesh K Pezzullo, John L Giner, José-Luis Callahan, Brian P
description	Cholesterolysis of Hedgehog family proteins couples endoproteolysis to protein C-terminal sterylation. The transformation is self-catalyzed by HhC, a partially characterized enzymatic domain found in precursor forms of Hedgehog. Here we explore spatial ambiguity in sterol recognition by HhC, using a trio of derivatives where the sterol A-ring is contracted, fused, or distorted. Sterylation assays indicate that these geometric variants react as substrates with relative activity: cholesterol, 1.000 > A-ring contracted, 0.100 > A-ring fused, 0.020 > A-ring distorted, 0.005. Experimental results and computational sterol docking into the first HhC homology model suggest a partially unstructured binding site with substrate recognition governed in large part by hydrophobic interactions. The enzymatic agent of hedgehog protein cholesterolysis accommodates substrate sterols with undersized, oversized and distorted ring systems relative to cholesterol.
doi_str_mv	10.1039/c8cc09729a
format	Article
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subjects	Binding Sites Cholesterol Cholesterol - chemistry Cholesterol - metabolism Docking Fluorescence Resonance Energy Transfer Hedgehog Proteins - chemistry Hedgehog Proteins - metabolism Homology Humans Hydrophobicity Kinetics Protein Structure, Tertiary Proteins Recognition Selectivity Sterols Sterols - chemistry Substrate Specificity Substrates
title	Sterol A-ring plasticity in hedgehog protein cholesterolysis supports a primitive substrate selectivity mechanism
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