# Polydopamine–chitosan coated biofilm-state Lacticaseibacillus paracasei SB27 as a living band-aid for targeted colitis therapy

**Authors:** Yinxue Liu, Yisuo Liu, Lu Jiang, Tongjie Liu, Zhe Zhang, Pimin Gong, Huaxi Yi

PMC · DOI: 10.1016/j.mtbio.2025.102460 · Materials Today Bio · 2025-10-24

## TL;DR

A new probiotic delivery system using biofilm-state bacteria and a special coating helps treat colitis by targeting inflamed areas in the gut.

## Contribution

A biofilm-state probiotic delivery system with a pH-responsive polydopamine-chitosan coating is developed for targeted colitis therapy.

## Key findings

- BIO@PCS achieves superior mucosal targeting and prolonged retention in a DSS-induced colitis model.
- Biofilm-state L. paracasei SB27 enhances adhesion, colonization, and immune effects compared to its planktonic form.
- The system acts as a biological 'band-aid' to repair intestinal barriers and rebalance immune homeostasis.

## Abstract

Inflammatory bowel disease (IBD) involves chronic intestinal inflammation and epithelial barrier disruption. While probiotics offer therapeutic potential, planktonic (PLA) forms suffer from poor viability, limited adhesion, and suboptimal efficacy. Biofilm-state (BIO) probiotics can exert probiotic functions effectively, yet inflammation impairs the conditions necessary for probiotics to form biofilm in the intestine. Direct delivery of biofilm-state probiotics offers a more effective strategy. Here, an innovative probiotic targeted delivery system is developed by integrating biofilm-state Lacticaseibacillus paracasei SB27 with a rationally designed dual-coating composed of polydopamine (PDA) and chitosan (CS) (BIO@PCS). This system enables pH-responsive release of probiotics and selective adhesion to ulcerated colonic sites, mimicking a biological “band-aid”. In DSS-induced colitis model, BIO@PCS achieves superior mucosal targeting and prolonged retention compared to planktonic or uncoated forms. Upon reaching inflamed tissue, the biofilm-state L. paracasei SB27 rapidly forms a bacterial barrier that reinforces all four intestinal barriers and mitigates local inflammation. This approach effectively shields damaged mucosa from further injury and stabilizes the microenvironment. By enhancing both delivery efficiency and therapeutic performance, this strategy represents a dual-optimized, biofilm-based platform for IBD treatment.

A biofilm-inspired probiotic delivery system is designed to alleviate colitis by targeting ulcerated intestinal regions. Encapsulation of biofilm-state Lacticaseibacillus paracasei SB27 within a polydopamine-chitosan coating (BIO@PCS) enhances mucosal adherence and retention. This biological “band-aid” approach effectively modulates gut microenvironments and reinforces intestinal barrier functions to mitigate inflammation.Image 1

•A dual PDA–CS coating enables targeted release and adhesion of biofilm-state probiotics to colitis sites.•Biofilm-state L. paracasei SB27 shows enhanced adhesion, colonization, and immune effects over its planktonic form.•BIO@PCS serves as a biological “band-aid” to repairing intestinal barrier integrity and rebalancing immune homeostasis.

A dual PDA–CS coating enables targeted release and adhesion of biofilm-state probiotics to colitis sites.

Biofilm-state L. paracasei SB27 shows enhanced adhesion, colonization, and immune effects over its planktonic form.

BIO@PCS serves as a biological “band-aid” to repairing intestinal barrier integrity and rebalancing immune homeostasis.

## Linked entities

- **Chemicals:** chitosan (PubChem CID 129662530)
- **Diseases:** colitis (MONDO:0005292), inflammatory bowel disease (MONDO:0005265)

## Full-text entities

- **Diseases:** colitis (MESH:D003092), inflammation (MESH:D007249), IBD (MESH:D015212)
- **Chemicals:** BIO@PCS (-), PDA (MESH:C568283), CS (MESH:D048271)

## Full text

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## Figures

7 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12596216/full.md

## References

61 references — full list in the complete paper: https://tomesphere.com/paper/PMC12596216/full.md

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Source: https://tomesphere.com/paper/PMC12596216