Genomic and Spectroscopic Signature-Based Discovery of Natural Macrolactams.
Yern-Hyerk ShinJi Hyeon ImIlnam KangEunji KimSung Chul JangEunji ChoDaniel ShinSunghoon HwangYoung Eun DuThanh-Hau HuynhKeebeom KoYoon-Joo KoSang-Jip NamTakayoshi AwakawaJeeyeon LeeSuckchang HongLeonard KaysserBradley S MooreWilliam FenicalYeo Joon YoonJang-Cheon ChoSang-Kook LeeKi-Bong OhDong-Chan OhPublished in: Journal of the American Chemical Society (2023)
The logical and effective discovery of macrolactams, structurally unique natural molecules with diverse biological activities, has been limited by a lack of targeted search methods. Herein, a targeted discovery method for natural macrolactams was devised by coupling genomic signature-based PCR screening of a bacterial DNA library with spectroscopic signature-based early identification of macrolactams. DNA library screening facilitated the efficient selection of 43 potential macrolactam-producing strains (3.6% of 1,188 strains screened). The PCR amplicons of the amine-deprotecting enzyme-coding genes were analyzed to predict the macrolactam type (α-methyl, α-alkyl, or β-methyl) produced by the hit strains. 1 H- 15 N HSQC-TOCSY NMR analysis of 15 N-labeled culture extracts enabled macrolactam detection and structural type assignment without any purification steps. This method identified a high-titer Micromonospora strain producing salinilactam ( 1 ), a previously reported α-methyl macrolactam, and two Streptomyces strains producing new α-alkyl and β-methyl macrolactams. Subsequent purification and spectroscopic analysis led to the structural revision of 1 and the discovery of muanlactam ( 2 ), an α-alkyl macrolactam with diene amide and tetraene chromophores, and concolactam ( 3 ), a β-methyl macrolactam with a [16,6,6]-tricyclic skeleton. Detailed genomic analysis of the strains producing 1 - 3 identified putative biosynthetic gene clusters and pathways. Compound 2 displayed significant cytotoxicity against various cancer cell lines (IC 50 = 1.58 μM against HCT116), whereas 3 showed inhibitory activity against Staphylococcus aureus sortase A. This genomic and spectroscopic signature-based method provides an efficient search strategy for new natural macrolactams and will be generally applicable for the discovery of nitrogen-bearing natural products.
Keyphrases
- small molecule
- escherichia coli
- molecular docking
- copy number
- high throughput
- staphylococcus aureus
- ionic liquid
- genome wide
- circulating tumor
- single molecule
- cancer therapy
- squamous cell carcinoma
- cell free
- real time pcr
- dna methylation
- high resolution
- biofilm formation
- young adults
- pet imaging
- mass spectrometry
- signaling pathway
- papillary thyroid
- computed tomography
- human health
- cystic fibrosis
- molecular dynamics simulations
- lymph node metastasis
- cell death
- methicillin resistant staphylococcus aureus
- pi k akt