Molecular Modeling of Novel Tryptamine Analogs with Antibiotic Potential Through Their Inhibition of Tryptophan Synthase

Schattenkerk, Jared

01 January 2017

The growing prevalence of antibiotic-resistant bacteria is a global health crisis that threatens the effectiveness of antibiotics in medical treatment. Increases in the number of antibiotic-resistant bacteria and a drop in the pharmaceutical development of novel antibiotics have combined to form a situation that is rapidly increasing the likelihood of a post-antibiotic era. The development of antibiotics with novel enzymatic targets is critical to stall this growing crisis. In silico methods of molecular modeling and drug design were utilized in the development of novel tryptamine analogs as potential antibiotics through their inhibition of the bacterial enzyme tryptophan synthase. Following the creation of novel tryptamine analogs, the molecules were analyzed in silico to determine their binding affinity to human MAOB and the E. coli α-subunit, E. coli β2-dimer and the M. tuberculosis β2-dimer of tryptophan synthase. Ten tryptamine analogs displayed significant increases in tryptophan synthase binding affinity and show promise as potential antibiotics and antibiotic adjuvants. Further in silico modeling determined that the binding sites of the tryptamine analogs were similar to wild-type tryptamine in the E. coli β2-dimer, the M. tuberculosis β2-dimer and human MAOB, while the analogs’ binding sites to the E. coli α-subunit differed. Although no tryptamine analogs increased tryptophan synthase binding affinity while decreasing human MAOB binding affinity, related increases in MAOB binding affinity warrants further research into the analogs’ potentials as MAO inhibitors. Given the increases in tryptophan synthase binding affinity and similar β2-dimer binding sites, a provisional patent was filed on the ten identified tryptamine analogs. Moving forward, we recommend the synthesis of the ten identified tryptamine analogs. Following synthesis, further research should be conducted to determine the in vitro and in vivo antibiotic properties of the ten tryptamine analogs.

Antibiotics

Antibiotic Adjuvants

Tryptamine

Tryptophan Synthase

MAO

Molecular Modeling

Amino Acids, Peptides, and Proteins

Enzymes and Coenzymes

Molecular Biology

Pharmaceutical Preparations

Discovery of Novel Antibacterial Agents against Avian Pathogenic Escherichia coli (APEC): Identification of Molecular Targets, Assessing Impact on Gut Microbiome and Evaluating Potential as Antibiotic Adjuvants

Kathayat, Dipak

January 2021

No description available.

Animal Diseases

Microbiology

Molecular Biology

Molecules

Pharmaceuticals

Therapy

Bioinformatics

APEC

chickens

small molecules

antimicrobial peptides

antibiotic adjuvants

LptDE complex

lipopolysaccharide

MlaA-OmpC system

phospholipid

antibacterial discovery

antibiotic resistance

microbiome

colistin

PmrAB system

antibiotic alternatives