# Environmental stress shapes persistence-like phenotypes and genomic changes in Escherichia coli and Morganella morganii: an exploratory study

**Authors:** Tosin Yetunde Senbadejo, Samuel Ntiamoah Osei, Elizabeth W. Bugase, Christina R. Bourne, Abiola Isawumi

PMC · DOI: 10.3389/fmicb.2026.1749211 · 2026-03-17

## TL;DR

This study shows that environmental stress can lead to changes in bacteria that help them survive antibiotics, contributing to chronic infections.

## Contribution

The study explores how stress conditions induce persistence and genomic changes in E. coli and M. morganii.

## Key findings

- Heat stress increased persister-like cell formation in E. coli and M. morganii.
- Genomic analysis revealed mutations in genes related to metabolism, transport, and transcription.
- Stress conditions reduced bacterial growth compared to control conditions.

## Abstract

Enterobacterales, including E. coli and M. morganii, employ adaptive mechanisms to withstand environmental and host-related stressors, including extreme temperatures, osmotic pressure changes, acidic conditions, and antibiotic pressures. Survival in these conditions can consequently enhance their antibiotic tolerance and persistence. Bacterial persistence contributes to chronic infections and antibiotic treatment failure. This exploratory study investigates the impact of stress conditions (pH, temperature, osmotic, and antibiotic stress) on persistence and genomic adaptations in E. coli and M. morganii.

Clinical and environmental M. morganii and E. coli strains from Ghanaian tertiary hospitals were exposed to extreme temperatures (cold ~4 °C, and heat ~45 °C), extreme pH (pH 3, pH 9, pH 10), and hyperosmolarity (1.71M NaCl). Growth kinetics were monitored by OD600 and CFU determinations, and persister-like cell formation was assessed using time-kill assays at 2 × MIC antibiotic conditions. Genomic changes associated with stress recovery including both adaptive mutations and enrichment of pre-existing variants were captured using comparative whole genome sequencing (WGS) of stress-recovered isolates to parental strains.

Strains exhibited variation in growth kinetics under different stress conditions compared to controls. Temperature, pH, and osmotic stress each affected bacterial growth to varying degrees. Heat stress in particular promoted increased persister-like cell formation in E. coli (with strain-specific differences) and, to a lesser extent, in M. morganii upon exposure to meropenem as observed in the isolates examined in this study. WGS analysis revealed that all four studied strains harbored virulence and resistance genes, with missense mutations detected in stress-recovered variants. Most of the mutated genes encode proteins that may play key roles in metabolic processes, transport functions and transcriptional regulations.

This exploratory study suggests that environmental stress drives both phenotypic and genotypic changes, and that these enhance subsequent survival upon challenge with antibiotics. These adaptive responses may contribute to antibiotic tolerance and chronic infection, emphasizing the need for therapeutic strategies targeting stress response pathways.

Phenotypic stress-adapted variants and genomic changes in clinical isolates from Ghanaian Tertiary Hospitals.Four line graphs display bacterial growth measured by optical density at 600 nanometers over 10 hours for samples labeled EC1, EC3, EC4, and m5. Each plot compares six conditions: control, forty-five degrees Celsius, four degrees Celsius, pH three, pH nine, and pH ten. Growth is highest in the control, followed by forty-five degrees Celsius and four degrees Celsius, while low pH and high pH conditions show minimal to no growth across all samples. Error bars are present on each data point.

Phenotypic stress-adapted variants and genomic changes in clinical isolates from Ghanaian Tertiary Hospitals.

## Linked entities

- **Chemicals:** meropenem (PubChem CID 441130), NaCl (PubChem CID 5234)
- **Species:** Escherichia coli (taxon 562), Morganella morganii (taxon 582)

## Full-text entities

- **Diseases:** infection (MESH:D007239)
- **Chemicals:** NaCl (MESH:D012965), meropenem (MESH:D000077731)
- **Species:** Morganella morganii (species) [taxon 582], Escherichia coli (E. coli, species) [taxon 562], Enterobacterales (order) [taxon 91347]

## Figures

7 figures with captions in the complete paper: https://tomesphere.com/paper/PMC13036971/full.md

---
Source: https://tomesphere.com/paper/PMC13036971