Amoxetamide A, a new anoikis inducer, produced by combined-culture of Amycolatopsis sp. and Tsukamurella pulmonis.

Cancer cells including colorectal cancer cells are resistant to anoikis, an anchorage-independent programmed death, which enables metastasis and subsequent survival in a new tumor microenvironment. In this study, we identified a new anoikis inducer, amoxetamide A (1) with a ß-lactone moiety, that was produced by combined-culture of Amycolatopsis sp. 26-4 and mycolic acid-containing bacteria (MACB) Tsukamurella pulmonis TP-B0596. The structure of 1 including the stereochemistry of C8 was determined by MS and NMR spectroscopy and modified Mosher's method, and the absolute configurations of C11 and C12 were suggested as 11R and 12S, respectively, by GIAO NMR calculations. Amoxetamide A (1) exhibited anoikis-inducing activity in human colorectal cancer HT-29 cells in anchorage-independent culture conditions.

Highly Sensitive Determination of Amino Acids by LC-MS under Neutral Conditions.

Peptide drug leads possess unusual structural features that allow them to exert their unique biological activities and ideal physicochemical properties. In particular, these peptides often have D-amino acids, and therefore the absolute configurations of the component amino acids have to be elucidated during the structural determination of newly isolated peptide drug leads. Recently, we developed the highly sensitive labeling reagents D/L-FDVDA and D/L-FDLDA for the structural determination of the component amino acids in peptides. In an LC-MS-based structural study of peptides, these reagents enabled us to detect infinitesimal amounts of amino acids derived from mild degradative analysis of the samples. Herein, we firstly report the improved LC-MS protocols for the highly sensitive analyses of amino acids. Second, two new labeling reagents were synthesized and their detection sensitivities evaluated. These studies increase our understanding of the structural basis of these highly sensitive labeling reagents, and should provide opportunities for future on-demand structural modifications of the reagents to enhance their hydrophobicity, stability, and affinity for applications to specialized HPLC columns.

Highly Sensitive Labeling Reagents for Scarce Natural Products.

Scarce natural products that possess unique biological activities have been ideal drug leads for decades. However, their identification and structural determinations are problematic owing to sample amount limitation. Inspired by an extremely rare natural product yaku'amide B (10), highly sensitive labeling reagents that would be powerful tools for scarce natural product chemistry were designed and synthesized in this study. By fusion with the key structural motif for the structural revision of 10, the detection sensitivities of amino acid labeling reagents were drastically enhanced in LC-MS analysis. These advanced labeling reagents enabled the detection of infinitesimal amounts of amino acids and peptide hydrolysates. This sensitivity-enhancement design concept was also applicable to reagents for labeling saccharides and reactivity-guided isolation of electrophilic natural products. Details of these reagents, including their practical preparations and extended applications, are also provided.