# Piperine inhibits biofilm formation and efflux activity and dysregulates lipid metabolism in Mycobacterium abscessus

**Authors:** Toe Ko Ko Htay, Matthew R. Hathaway, Jaiyanth Daniel

PMC · DOI: 10.1371/journal.pone.0341420 · PLOS One · 2026-01-22

## TL;DR

Piperine, a compound from black pepper, inhibits biofilm formation and lipid metabolism in Mycobacterium abscessus, a bacterium that causes chronic infections.

## Contribution

This is the first study to show that piperine disrupts lipid biosynthesis, biofilm formation, and efflux activity in M. abscessus.

## Key findings

- Piperine inhibits biofilm formation in M. abscessus by over 90% at sub-inhibitory concentrations.
- Piperine inhibits triacylglycerol biosynthesis by nearly 80% and trehalose monomycolate by 50% during biofilm formation.
- Piperine enhances the efficacy of antibiotics like clarithromycin by more than 16-fold against M. abscessus.

## Abstract

The nontuberculous Mycobacterium abscessus is a human pathogen that causes chronic lung infections and soft tissue infections. The bacterium forms biofilms and efflux pumps contribute to its tolerance of antibiotics. Efflux pumps also transport lipids and other molecules to the bacterial outer cell surface for biofilm formation. The effects of piperine, an alkaloid derived from black pepper, on biofilm formation, efflux activity and lipid biosynthesis in M. abscessus have not been reported. We report that, at sub-minimum inhibitory concentration levels, piperine inhibits biofilm formation in M. abscessus by more than 90%. We investigated lipid biosynthesis from exogenously supplied radiolabeled 14C-palmitic acid in M. abscessus during its log-phase growth and during biofilm formation and examined the effects of piperine. We report that piperine dysregulates the biosynthesis of major lipids in M. abscessus during biofilm formation. Piperine inhibited the biosynthesis of the neutral storage lipid triacylglycerol during biofilm formation by nearly 80% and the biosynthesis of the polar lipid trehalose monomycolate by 50%. In contrast, piperine stimulated the biosynthesis of the major polar lipid phosphatidylethanolamine during biofilm formation. Piperine inhibited efflux activity in M. abscessus by nearly 70%. Piperine enhanced the efficacies of four commonly used antibiotics used to treat M. abscessus infections. The minimum inhibitory concentration of clarithromycin was decreased by more than 16-fold by piperine and that of amikacin and cefoxitin by about 5-fold. The efficacy of ciprofloxacin was improved by more than 2-fold by piperine. This is the first report on the effects of piperine on lipid biosynthesis, efflux activity and biofilm formation in M. abscessus that highlights the potential importance of piperine as an adjunct therapy to treat nontuberculous mycobacterial infections.

## Linked entities

- **Chemicals:** piperine (PubChem CID 638024), clarithromycin (PubChem CID 84029), amikacin (PubChem CID 37768), cefoxitin (PubChem CID 441199), ciprofloxacin (PubChem CID 2764)

## Full-text entities

- **Genes:** MAB_2303 [NCBI Gene 5964815]
- **Diseases:** cystic fibrosis medium (MESH:D003550), infection (MESH:D007239), lung infections (MESH:D012141), MBCs (MESH:C567712), M. abscessus infection (MESH:D009165), tuberculosis (MESH:D014376), M. abscessus (MESH:C566367)
- **Chemicals:** cardiolipin (MESH:D002308), calcium (MESH:D002118), phospholipid (MESH:D010743), CL (MESH:D002713), Tween 80 (MESH:D011136), phosphatidylglycerol (MESH:D010715), TMM (MESH:C021099), EtBr (MESH:D004996), carbon (MESH:D002244), fatty acid (MESH:D005227), Lipids (MESH:D008055), chloroform (MESH:D002725), agar (MESH:D000362), Piperine (MESH:C008922), TDM (MESH:D003311), CEF (-), DMSO (MESH:D004121), Verapamil (MESH:D014700), membrane lipids (MESH:D008563), silica (MESH:D012822), fullerenes (MESH:D037741), hexane (MESH:D006586), MICA (MESH:C011934), Crystal Violet (MESH:D005840), amikacin (MESH:D000583), diethyl ether (MESH:D004986), rifampicin (MESH:D012293), linezolid (MESH:D000069349), 14C (MESH:C000615234), palmitic acid (MESH:D019308), cefoxitin (MESH:D002440), polysaccharides (MESH:D011134), O (MESH:D010100), phosphatidylinositol mannosides (MESH:C034154), glucose (MESH:D005947), TAG (MESH:D014280), Mycolic acids (MESH:D009171), alkaloid (MESH:D000470), methanol (MESH:D000432), glycerol (MESH:D005990), salts (MESH:D012492), resorufin (MESH:C014180), isoniazid (MESH:D007538), clofazimine (MESH:D002991), PI (MESH:D010716), cation (MESH:D002412), magnesium (MESH:D008274), CIP (MESH:D002939), Alamar blue (MESH:C005843), acetic acid (MESH:D019342), CLA (MESH:D017291), bedaquiline (MESH:C493870), VER (MESH:D008874), water (MESH:D014867), PE (MESH:C483858)
- **Species:** Mycolicibacterium smegmatis (species) [taxon 1772], Mycobacteroides abscessus (species) [taxon 36809], Mycobacterium avium (species) [taxon 1764], Mycobacterium tuberculosis (species) [taxon 1773], Piper longum (species) [taxon 49511], Homo sapiens (human, species) [taxon 9606], Mycobacterium tuberculosis subsp. tuberculosis (subspecies) [taxon 182785], Piper nigrum (species) [taxon 13216], Mus musculus (house mouse, species) [taxon 10090], Mycobacteriales (order) [taxon 85007]

## Full text

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## Figures

4 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12826518/full.md

## References

45 references — full list in the complete paper: https://tomesphere.com/paper/PMC12826518/full.md

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Source: https://tomesphere.com/paper/PMC12826518