Functions, structures and Triton X-100 effect for the catalytic subunits of heterodimeric phospholipases A sub(2) from Vipera nikolskii venom

Phospholipases A sub(2) (PLA sub(2)s) from snake venoms have diverse pharmacological functions including neurotoxicity, and more studies are necessary to understand relevant mechanisms. Here we report the different crystal structures for two enzymatically active basic subunits (HDP-1P and HDP-2P) of...

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Veröffentlicht in:	Toxicon (Oxford) 2009-11, Vol.54 (6), p.709-716
Hauptverfasser:	Gao, W, Starkov, V G, He, Zx, Wang, Qh, Tsetlin, VI, Utkin, Y N, Lin, Zj, Bi, Rc
Format:	Artikel
Sprache:	eng
Schlagworte:	Vipera
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creator	Gao, W Starkov, V G He, Zx Wang, Qh Tsetlin, VI Utkin, Y N Lin, Zj Bi, Rc
description	Phospholipases A sub(2) (PLA sub(2)s) from snake venoms have diverse pharmacological functions including neurotoxicity, and more studies are necessary to understand relevant mechanisms. Here we report the different crystal structures for two enzymatically active basic subunits (HDP-1P and HDP-2P) of heterodimeric neurotoxic PLA sub(2)s isolated from Vipera nikolskii venom. Structural comparisons with similar PLA sub(2)s clearly show some flexible regions which might be important for the catalytic function and neurotoxicity. Unexpectedly, Triton X-100 molecule bound in the hydrophobic channel of HDP-1P and HDP-2P was observed, and its binding induced conformational changes in the Ca super(2) super(+) binding loop. Enzymatic activity measurements indicated that Triton X-100 decreased the activity of PLA sub(2), although with comparatively low inhibitory activity. For the first time exocytosis experiments in pancreatic b cells were used to confirm the presynaptic neurotoxicity of relevant snake PLA sub(2). These experiments also indicated that Triton X-100 inhibited the influence of HDP-1P on exocytosis, but the inhibition was smaller than that of MJ33, a phospholipid-analogue inhibitor of PLA sub(2). Our studies performed at a cellular level are in good agreement with earlier findings that enzymatic activity of the snake presynaptic PLA sub(2) neurotoxins is essential for effective block of nerve terminals.
doi_str_mv	10.1016/j.toxicon.2009.05.024
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Here we report the different crystal structures for two enzymatically active basic subunits (HDP-1P and HDP-2P) of heterodimeric neurotoxic PLA sub(2)s isolated from Vipera nikolskii venom. Structural comparisons with similar PLA sub(2)s clearly show some flexible regions which might be important for the catalytic function and neurotoxicity. Unexpectedly, Triton X-100 molecule bound in the hydrophobic channel of HDP-1P and HDP-2P was observed, and its binding induced conformational changes in the Ca super(2) super(+) binding loop. Enzymatic activity measurements indicated that Triton X-100 decreased the activity of PLA sub(2), although with comparatively low inhibitory activity. For the first time exocytosis experiments in pancreatic b cells were used to confirm the presynaptic neurotoxicity of relevant snake PLA sub(2). These experiments also indicated that Triton X-100 inhibited the influence of HDP-1P on exocytosis, but the inhibition was smaller than that of MJ33, a phospholipid-analogue inhibitor of PLA sub(2). 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These experiments also indicated that Triton X-100 inhibited the influence of HDP-1P on exocytosis, but the inhibition was smaller than that of MJ33, a phospholipid-analogue inhibitor of PLA sub(2). Our studies performed at a cellular level are in good agreement with earlier findings that enzymatic activity of the snake presynaptic PLA sub(2) neurotoxins is essential for effective block of nerve terminals.</abstract><doi>10.1016/j.toxicon.2009.05.024</doi></addata></record>
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subjects	Vipera
title	Functions, structures and Triton X-100 effect for the catalytic subunits of heterodimeric phospholipases A sub(2) from Vipera nikolskii venom
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