# The Helicobacter pylori TlpD cytoplasmic chemoreceptor requires an intact C-terminus for polar localization and function

**Authors:** Raymondo Lopez-Magaña, Karen M. Ottemann

PMC · DOI: 10.1128/jb.00394-25 · Journal of Bacteriology · 2026-02-09

## TL;DR

The study shows that a specific end of the TlpD protein is crucial for it to reach the bacterial pole and help the bacteria move, which is important for causing infection.

## Contribution

The study identifies the C-terminus of TlpD as essential for its polar localization and chemotactic function in Helicobacter pylori.

## Key findings

- TlpD lacking the C-terminal 45 amino acids fails to localize to the bacterial pole.
- TlpD variants missing the C-terminus do not support chemotaxis in H. pylori.
- The C-terminal region of TlpD is necessary for interaction with CheW, a key chemotaxis protein.

## Abstract

Bacteria localize proteins to distinct subcellular locations, including chemoreceptors, which frequently localize to the bacterial pole. Although some polarity-promoting mechanisms have been described, many chemoreceptors lack clear routes to becoming polar. TlpD of the bacterial pathogen Helicobacter pylori is one such protein. This cytoplasmic chemoreceptor localizes to the pole in a manner that is independent of the other chemoreceptors. In this work, we evaluated the role of TlpD domains in its function. Truncated proteins were created that lacked different amounts of the N- or C-termini and expressed in H. pylori in place of native tlpD or as the sole chemoreceptor. These TlpD variants were examined for their presence and abundance, protein localization, association with chemotaxis signaling proteins, and effect on motility. TlpD that lacked any portion of the N-terminal 104 amino acids produced low to no amounts of detectable protein. In contrast, TlpD was detectable with loss of the C-terminal 45 amino acids. TlpD lacking the last 45 amino acids (TlpD∆C4) preserved the ability to interact with CheW and CheV proteins based on bacterial two-hybrid analysis, but was unable to localize to the pole either on their own or in the presence of other chemoreceptors. TlpD∆C4 was found to be diffuse in the cytoplasm and interacted with CheV1, CheV2, and CheV3 at this location but not with CheW. TlpD∆C4 did not confer chemotactic abilities in soft agar chemotaxis assays. These findings suggest the C-terminal end of TlpD plays a previously unappreciated role in promoting TlpD polar localization and function.

Bacteria place their proteins in specific locations that are required for the proteins to function, including the bacterial pole. How the bacterial cell identifies which proteins go to the pole is not fully understood. In this work, we dissect parts of a protein called TlpD that naturally goes to the pole. We find that mutants lacking one end of TlpD lose their polar placement, but retain other abilities. TlpD allows directed motility known as chemotaxis. This ability is critical for infection in Helicobacter pylori and numerous other pathogens. When TlpD loses its polar placement, the protein no longer functions for chemotaxis, laying the foundation for future studies that can dissect how this segment promotes function and eventually translate into therapies for H. pylori infection.

## Linked entities

- **Genes:** tlpD (chemotaxis chemoreceptor TlpD) [NCBI Gene 93236948], CHEW (chew score) [NCBI Gene 407550], cheV1 (chemotaxis protein CheV1) [NCBI Gene 31758934], cheV3 (chemotaxis protein CheV3) [NCBI Gene 31757956]
- **Proteins:** tlpD (chemotaxis chemoreceptor TlpD), CHEW (chew score), cheV1 (chemotaxis protein CheV1), cheV3 (chemotaxis protein CheV3)
- **Species:** Helicobacter pylori (taxon 210)

## Full-text entities

- **Diseases:** infection (MESH:D007239), H. pylori infection (MESH:D016481)
- **Chemicals:** soft (-), agar (MESH:D000362)
- **Species:** Helicobacter pylori (species) [taxon 210]

## Full text

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## Figures

6 figures with captions in the complete paper: https://tomesphere.com/paper/PMC13001251/full.md

## References

57 references — full list in the complete paper: https://tomesphere.com/paper/PMC13001251/full.md

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Source: https://tomesphere.com/paper/PMC13001251