Biosynthetic Pathway Connects Cryptic Ribosomally Synthesized Posttranslationally Modified Peptide Genes with Pyrroloquinoline Alkaloids

Jordan, Peter; Moore, Bradley S.

doi:10.1016/j.chembiol.2016.10.009

Cited by 52 publications

(65 citation statements)

References 53 publications

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“…Another FDH, which appears to halogenate a precursor of Ammosamide B (Fig. 4A, 10 ), has recently been identified and demonstrates the highest sequence homology to MibH (79). It was originally thought that chlorination of L-Trp by this FDH, Amm3, was the first biosynthetic step for Ammosamide B; however, evidence suggests that Amm3 chlorinates a downstream precursor (79).…”

Section: Flavin-dependent Halogenases (Fdhs)mentioning

confidence: 99%

Understanding and Improving the Activity of Flavin-Dependent Halogenases via Random and Targeted Mutagenesis

Andorfer

Lewis

2018

Annu. Rev. Biochem.

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Flavin dependent halogenases (FDHs) catalyze the halogenation of organic substrates by coordinating reactions of reduced flavin, molecular oxygen, and chloride. Targeted and random mutagenesis of these enzymes has been used to both understand and alter their reactivity. These studies have led to insights into residues essential for catalysis and FDH variants with improved stability, expanded substrate scope, and altered site selectivity. Mutations throughout FDH structures have contributed to all of these advances. More recent studies have sought to rationalize the impact of these mutations on FDH function and to identify new FDHs to deepen our understanding of this enzyme class and to expand their utility for biocatalytic applications.

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Section: Flavin-dependent Halogenases (Fdhs)mentioning

confidence: 99%

Understanding and Improving the Activity of Flavin-Dependent Halogenases via Random and Targeted Mutagenesis

Andorfer

Lewis

2018

Annu. Rev. Biochem.

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“…Highlights of important patterns shown in Figure 1 are organized around compounds containing the C 10 N 2 pyrrolo[4,3,2- de ]quinoline. This framework is now considered to be created by ribosomally synthesized and post-translationally modified peptide (RiPP) pathways delivering a C-terminal tryptophan building block [16]. The compilation in Figure 1 also abstracts therapeutic assessment outcomes for eight different lead structures [8,9,10,11,12,13,14,15,17,18,19,20,21,22].…”

Section: Introductionmentioning

confidence: 99%

Another Look at Pyrroloiminoquinone Alkaloids—Perspectives on Their Therapeutic Potential from Known Structures and Semisynthetic Analogues

et al. 2017

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This study began with the goal of identifying constituents from Zyzzya fuliginosa extracts that showed selectivity in our primary cytotoxicity screen against the PANC-1 tumor cell line. During the course of this project, which focused on six Z. fuliginosa samples collected from various regions of the Indo-Pacific, known compounds were obtained consisting of nine makaluvamine and three damirone analogues. Four new acetylated derivatives were also prepared. High-accuracy electrospray ionization mass spectrometry (HAESI-MS) m/z ions produced through MS2 runs were obtained and interpreted to provide a rapid way for dereplicating isomers containing a pyrrolo[4,3,2-de]quinoline core. In vitro human pancreas/duct epithelioid carcinoma (PANC-1) cell line IC50 data was obtained for 16 compounds and two therapeutic standards. These results along with data gleaned from the literature provided useful structure activity relationship conclusions. Three structural motifs proved to be important in maximizing potency against PANC-1: (i) conjugation within the core of the ABC-ring; (ii) the presence of a positive charge in the C-ring; and (iii) inclusion of a 4-ethyl phenol or 4-ethyl phenol acetate substituent off the B-ring. Two compounds, makaluvamine J (9) and 15-O-acetyl makaluvamine J (15), contained all three of these frameworks and exhibited the best potency with IC50 values of 54 nM and 81 nM, respectively. These two most potent analogs were then tested against the OVCAR-5 cell line and the presence of the acetyl group increased the potency 14-fold from that of 9 whose IC50 = 120 nM vs. that of 15 having IC50 = 8.6 nM.

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“…An intramolecular Michael addition, reoxidation of the hydroquinone and halogenation through FADH 2 ‐dependent halogenases or haloperoxidases would lead to the halogenated pyrrolo[4,3,2‐ de ]quinoline alkaloids 1b and 1c ,. Halogenation at an earlier stage of the biosynthesis might also be possible . N ‐methylation of 1b and 1c via a SAM‐dependent methyltransferase would afford the alkaloids 1d and 1e .…”

Section: Resultsmentioning

confidence: 99%

“…Halogenation at an earlier stage of the biosynthesis might also be possible . N ‐methylation of 1b and 1c via a SAM‐dependent methyltransferase would afford the alkaloids 1d and 1e . The proposed biosynthesis is supported by the fact that the non‐halogenated pyrrolo[4,3,2‐ de ]quinoline alkaloid damirone C ( 1a ) was isolated from Z. fuliginosa …”

Section: Resultsmentioning

confidence: 99%

Total Synthesis of Damirone C, Makaluvamine O, Makaluvone, Batzelline C and Batzelline D

2017

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Dedicated to Professor Gerhard Spiteller on the occasion of his 85th birthday.The first total synthesis of makaluvamine O and batzelline D, pyrroloquinoline alkaloids isolated from marine sponges, are described. Key steps in the biomimetic synthesis are an intramolecular Michael addition leading to the pyrrolo[4,3,2-de]quinoline core and the following selective halogenation at C-6 position with NBS/NCS. Moreover, the related marine alkaloids damirone C, makaluvone and batzelline C were synthesised via this approach.

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Biosynthetic Pathway Connects Cryptic Ribosomally Synthesized Posttranslationally Modified Peptide Genes with Pyrroloquinoline Alkaloids

Cited by 52 publications

References 53 publications

Understanding and Improving the Activity of Flavin-Dependent Halogenases via Random and Targeted Mutagenesis

Understanding and Improving the Activity of Flavin-Dependent Halogenases via Random and Targeted Mutagenesis

Another Look at Pyrroloiminoquinone Alkaloids—Perspectives on Their Therapeutic Potential from Known Structures and Semisynthetic Analogues

Total Synthesis of Damirone C, Makaluvamine O, Makaluvone, Batzelline C and Batzelline D

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