TY - JOUR
T1 - Asteropine A, a Sialidase-Inhibiting Conotoxin-like Peptide from the Marine Sponge Asteropus simplex
AU - Takada, Kentaro
AU - Hamada, Toshiyuki
AU - Hirota, Hiroshi
AU - Nakao, Yoichi
AU - Matsunaga, Shigeki
AU - van Soest, Rob W.M.
AU - Fusetani, Nobuhiro
N1 - Funding Information:
We are grateful to Dr. Kirk R. Gustafson and Dr. Thomas J. Turbyville, National Cancer Institute at Frederick, for reading the manuscript. We thank Professor Yasuo Suzuki, The University of Shizuoka, for a generous gift of the influenza virus. This work was partly supported by grant-in-aids from the Japan Society of Promotion of Science.
PY - 2006/6
Y1 - 2006/6
N2 - Marine sponges contain structurally intriguing and biologically active peptides of nonribosomal peptide synthase origin, often containing amino acids with novel structures. Here we report the discovery of asteropine A (APA), a cystine knot to be isolated from marine sponges. The solution structure of APA as determined by NMR belongs to the four-loop class of cystine knots similar to those of some conotoxins and spider toxins. However, the highly negatively charged surface of APA is uncommon among other cystine knots. APA competitively inhibits bacterial sialidases, but not a viral sialidase. APA was inactive against all other enzymes tested and did not have any apparent antitumor activity. Our data suggest that APA and other knotting peptides may be important leads for antibacterial and even antiviral drug development.
AB - Marine sponges contain structurally intriguing and biologically active peptides of nonribosomal peptide synthase origin, often containing amino acids with novel structures. Here we report the discovery of asteropine A (APA), a cystine knot to be isolated from marine sponges. The solution structure of APA as determined by NMR belongs to the four-loop class of cystine knots similar to those of some conotoxins and spider toxins. However, the highly negatively charged surface of APA is uncommon among other cystine knots. APA competitively inhibits bacterial sialidases, but not a viral sialidase. APA was inactive against all other enzymes tested and did not have any apparent antitumor activity. Our data suggest that APA and other knotting peptides may be important leads for antibacterial and even antiviral drug development.
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U2 - 10.1016/j.chembiol.2006.05.010
DO - 10.1016/j.chembiol.2006.05.010
M3 - Article
C2 - 16793514
AN - SCOPUS:33745187106
SN - 1074-5521
VL - 13
SP - 569
EP - 574
JO - Chemistry and Biology
JF - Chemistry and Biology
IS - 6
ER -