½²×ù±àºÅ£ºjz-yjsb-2016-y094

½²×ùÎÊÌ⣺Advances in Targeting Cyclic Nucleotide Phosphodiesterases

Ö÷ ½² ÈË£ºHengming Ke ½ÌÊÚ University of North Carolina at Chapel Hill
£¬USA

½²×ùʱ¼ä£º2016Äê12ÔÂ15ÈÕ£¨ÖÜËÄ£©ÏÂÖç16:00

½²×ùËùÔÚ£º¸·³É·Î÷УÇø½ÌÈýÂ¥311ÊÒ

¼ÓÈ빤¾ß£ºÊ³ÎïѧԺÉúÎ﹤³Ì¼°ÆäÏà¹ØרҵʦÉú

Ö÷Àíµ¥Î»£ºÑо¿ÉúÔº

³Ð°ìµ¥Î»£ºÊ³ÎïѧԺ

Ö÷½²È˼ò½é£º

¿ÂºâÃ÷²©Ê¿ÊÇÃÀ¹ú±±¿¨À³ÂÞÄÉ´óѧ½ÌÌÃɽ·ÖУҽѧԺµÄÖÕÉí½ÌÊÚ¡£ÔÚ¹þ·ð´óѧ¹¥¶Á²©Ê¿Ê±´ú
£¬Ê¦´ÓWilliam N. Lipscomb ½ÌÊÚ£¨1976Äêŵ±´¶û»¯Ñ§½±»ñµÃÕߣ©
£¬ÓëRoald Hoffmann½ÌÊÚ£¨1981Äêŵ±´¶û»¯Ñ§½±»ñµÃÕߣ©¡¢Thomas Steitz½ÌÊÚ£¨2009Äêŵ±´¶û»¯Ñ§½±»ñµÃÕߣ©¡¢Micheal Rossmann£¨ÃÀ¹ú¿ÆѧԺԺʿ£©¡¢Don Wiley½ÌÊÚ£¨ÃÀ¹ú¿ÆѧԺԺʿ£©¡¢Douglas½ÌÊÚ£¨ÃÀ¹ú¿ÆѧԺԺʿ£©ÎªÍ¬ÃÅѧÉú¡£

¶àÄêÀ´
£¬¿Â½ÌÊÚµ£µ±ÃÀ¹úNIHÊ×ϯ¿Æѧ¼Ò¡£ËûÏòµ¼µÄÑо¿Ð¡×éÔø»ñµÃÃÀ¹úNIH
£¬ÃÀ¹ú¹ú¼Ò¿Æѧ»ù½ð»á
£¬ÃÀ¹ú°®×̲¡Ñ§»áºÍ¶àÃŵڽçÖÁ¹«Ë¾ (Amgen
£¬Asta Medica
£¬Merck
£¬Pfizer
£¬Miles
£¬GSK µÈ)×ÊÖú¡£¿Â½ÌÊÚµ£µ±¶à¼ÒÖÆÒ©¹«Ë¾µÄÕÕÁÏ£¨Trimeris, Suntoryɽ¶àÀûµÈ£©
£¬²¢ÈθðÀ¼ËØ-Ê·¿Ë-°Ý¶ûµÄÆßÈËÖÇÄÒÍÅ£¨thinking-tank, 2002, 2003£©×ÊÖúÍƽéÍòµØÄÇ·Ç(Levitra)ÓÚ2005Äê½øÈëÊг¡¡£

ͬʱ
£¬¿Â½ÌÊÚÊÇÃÀ¹úÖøÃûѧÊõÕûÌåAmerican Crystallographic Association
£¬American Association for the Advancement of ScienceίԱ
£¬¹ú¼ÊÖøÃûѧÊõÆÚ¿¯Asian Journal of Biochemistry,J. Biological Sciences, Current Bioactive Compounds µÄ±àί
£¬ÒÔ¼°Proc. Natl. Acad. Sci., J. Mol. Biol.,J. Biol. Chem.
£¬EMBO J.
£¬Biochemistry
£¬Structure
£¬Protein Sciences
£¬Protein: structure, function and genetics
£¬Nature Structural BiologyµÈ¶¥¼¶ÆÚ¿¯µÄÉó¸åÈË¡£

¿Â½ÌÊÚÔڽṹÉúÎïѧÑо¿·½ÃæÈ¡µÃÁËÌìÏÂ×ÅÃûµÄЧ¹û
£¬ÒѾ­½â³öÁË»·ºËÜÕËáÁ×Ëá¶þõ¥Ã¸£¨PDE£©¡¢ÈÈÐÝ¿ËÂÑ°×90£¨HSP90£©¡¢DNAÏÞÖÆÐÔÄÚÇÐøNaeI¡¢ACCºÏ³ÉøµÈ10ÀàÂÑ°×Öʵľ§Ìå½á¹¹¡£ÔÚCell
£¬ Science
£¬Nature Struct. Biol.
£¬Proc Natl Acad Sci U S A
£¬Mol Microbiol.
£¬J Biol Chem
£¬J Med Chem.
£¬Development
£¬Protein Expr Purif
£¬Biochem. Pharmacol.
£¬Biochem J., J. Mol. Biol.
£¬Mol. Pharmacol.
£¬Structure
£¬EMBO J.µÈ¹ú¼ÊÖøÃûѧÊõÆÚ¿¯ÉϽÒÏþÂÛÎÄ70Óàƪ¡£¿ÂµÄÑо¿×éÓë¸ðÀ¼ËØ-Ê·¿ËÏàÖú
£¬½ÒÏþÁËÌìϵÚÒ»¸öPDE4B´ß»¯½á¹¹ÓòµÄ½á¹¹
£¬È»ºóÓÖ½â³öÁËPDE¼Ò×å³ÉÔ±ÂÑ°×ÓëÒÖÖƼÁ¸´ºÏÎïµÄ40¶à¸ö½á¹¹¡£ËûµÄС×é½ÒÏþÁË15ƪPDE½á¹¹µÄ¸ßÖÊÁ¿ÂÛÎÄ
£¬¶øÈ«Çò¹æÄ£ÄÚµÄÆäËû¿ÎÌâ×é½ö½ÒÏþ8ƪÓйØPDE½á¹¹µÄÂÛÎÄ¡£

Ö÷½²ÄÚÈÝ£º

Cyclic nucleotide phosphodiesterases (PDEs) catalyse the hydrolysis of cyclic AMP and cyclic GMP, thereby regulating the intracellular concentrations of these cyclic nucleotides, their signalling pathways and, consequently, myriad biological responses in health and disease. Currently, a small number of PDE inhibitors are used clinically for treating the pathophysiological dysregulation of cyclic nucleotide signalling in several disorders, including erectile dysfunction, pulmonary hypertension, acute refractory cardiac failure, intermittent claudication and chronic obstructive pulmonary disease. However, pharmaceutical interest in PDEs has been reignited by the increasing understanding of the roles of individual PDEs in regulating the subcellular compartmentalization of specific cyclic nucleotide signalling pathways, by the structure-based design of novel specific inhibitors and by the development of more sophisticated strategies to target individual PDE variants.