Bencharit_2002_Nat.Struct.Biol_9_337

Reference

Title : Structural insights into CPT-11 activation by mammalian carboxylesterases - Bencharit_2002_Nat.Struct.Biol_9_337
Author(s) : Bencharit S , Morton CL , Howard-Williams EL , Danks MK , Potter PM , Redinbo MR
Ref : Nat Struct Biol , 9 :337 , 2002
Abstract :

Mammalian carboxylesterases cleave the anticancer prodrug CPT-11 (Irinotecan) into SN-38, a potent topoisomerase I poison, and 4-piperidino-piperidine (4PP). We present the 2.5 A crystal structure of rabbit liver carboxylesterase (rCE), the most efficient enzyme known to activate CPT-11 in this manner, in complex with the leaving group 4PP. 4PP is observed bound adjacent to a high-mannose Asn-linked glycosylation site on the surface of rCE. This product-binding site is separated from the catalytic gorge by a thin wall of amino acid side chains, suggesting that 4PP may be released through this secondary product exit pore. The crystallographic observation of a leaving group bound on the surface of rCE supports the 'back door' product exit site proposed for the acetylcholinesterases. These results may facilitate the design of improved anticancer drugs or enzymes for use in viral-directed cancer cotherapies.

PubMedSearch : Bencharit_2002_Nat.Struct.Biol_9_337
PubMedID: 11967565
Gene_locus related to this paper: rabit-1cxes

Related information

Inhibitor 4-piperidino-piperidine
Substrate Irinotecan
Gene_locus rabit-1cxes
Family Carb_B_Chordata
Structure 1K4Y

Citations formats

Bencharit S, Morton CL, Howard-Williams EL, Danks MK, Potter PM, Redinbo MR (2002)
Structural insights into CPT-11 activation by mammalian carboxylesterases
Nat Struct Biol 9 :337

Bencharit S, Morton CL, Howard-Williams EL, Danks MK, Potter PM, Redinbo MR (2002)
Nat Struct Biol 9 :337