Journal
MOLECULAR AND BIOCHEMICAL PARASITOLOGY
Volume 134, Issue 1, Pages 127-135Publisher
ELSEVIER SCIENCE BV
DOI: 10.1016/j.molbiopara.2003.11.011
Keywords
Cryptosporidium parvum; apicomplexan; fatty acid synthase; enzyme activity; kinetics; cerulenin; inhibition
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Funding
- NIAID NIH HHS [R01 AI44594] Funding Source: Medline
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A 25-kb CpFAS1 gene from Cryptosporidium parvum has been engineered and expressed as five individual maltose-binding protein (MBP)-fusion proteins: an N-terminal loading unit, three fatty acyl elongation modules, and a C-terminal reductase. Enzymatic activities of all domains (except the reductase) were individually assayed as recombinant proteins. The preferred substrate for the fatty acyl ligase (AL) domain in the loading unit was palmitic acid (C16:0). However, a competition assay suggests that the AL domain could also utilize other fatty acids as substrates (i.e., C12:0-C24:0), albeit with reduced activity. Among the three elongation modules, enzymatic activities were detected for ketoacyl synthase (KS), acyl transferase (AT), dehydrase (DH), enoyl reductase (ER), and ketoacyl reductase (KR) domains, which suggests that these modules were involved in the elongation of a saturated fatty acyl chain that would be C6 longer (e.g., C22:0) than the precursor (e.g., C16:0). In addition, the KS activity could be specifically inhibited by cerulenin (IC50 similar to 1.5 muM), reinforcing the notion that CpFAS1 could be exploited as potential drug target. Since C. parvum lacks other fatty acid synthases, these observations imply that this parasite may not be capable of synthesizing fatty acids de novo. (C) 2003 Elsevier B.V. All rights reserved.
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