Abstract
Environmental stress represents an effective strategy for discovering natural products from microorganisms, but the processes involved remain unclear. Under acidic conditions, a previously unidentified class of β-carbolines (βCs), termed secofumitremorgins (SFs), with potent antiangiogenic activity in zebrafish models was found and identified via nuclear magnetic resonance, Marfey's analysis, and quantum calculations. Using gene knockout, heterologous expression, precursor feeding, isotope tracing, molecular docking, and site-directed mutagenesis, a unique biosynthetic pathway for SFs was characterized, beyond the Pictet-Spenglerase-mediated biosynthetic process. Furthermore, an unreported pH-regulated mechanism was unveiled, where P450 (FtmG) facilitated new fumitremorgin intermediate formation, enabling spontaneous, nonenzymatic generation of βCs and spirotryprostatins under distinct pH conditions. Notably, this work provides detailed experimental evidence and reaction mechanisms for synergistic enzymatic and nonenzymatic catalysis driving metabolite diversification under pH stress. The findings expand biosynthetic paradigms for indole alkaloids and highlight the therapeutic potential of pH-elicited βCs, advancing strategies for natural product discovery.