# Development of mRNA–lipid nanoparticle intrabodies against rickettsial infection

**Authors:** Qi Yan, Nan Duan, Mingqun Lin, Wenqing Zhang, Stephen Denton, Yichen Zhong, Yizhou Dong, Yasuko Rikihisa

PMC · DOI: 10.1186/s12929-025-01171-5 · 2025-08-12

## TL;DR

Researchers developed mRNA-lipid nanoparticle intrabodies that inhibit Ehrlichia chaffeensis infection by targeting a bacterial protein involved in intracellular replication.

## Contribution

The novel use of mRNA-lipid nanoparticles to deliver intrabodies targeting intracellular bacterial effectors in rickettsial infection.

## Key findings

- Two intrabodies were identified that inhibit Etf-2 binding to RAB5-GTP in human cells.
- mRNA-LNP encoding anti-Etf-2 intrabodies significantly reduced Ehrlichia chaffeensis infection in cell cultures and mice.
- The approach demonstrates a feasible precision therapy for intracellular bacterial infections.

## Abstract

Rickettsiosis is among the deadliest vector-borne infectious diseases worldwide, in part because rickettsiae replicate within human cells, where antibodies and most drugs cannot effectively reach this obligatory intracellular pathogen. Ehrlichia chaffeensis, an emerging rickettsia, is the causative agent of human monocytic ehrlichiosis. We therefore aim to generate intrabodies (IBs), the variable domain of heavy chain of heavy-chain-only antibodies (VHHs) that bind intracellular bacterial proteins to inhibit E. chaffeensis infection.

E. chaffeensis replicates in membrane-bound vacuoles resembling early endosomes in human monocytes/macrophages. The type IV secretion system effector Ehrlichia translocated factor-2 (Etf-2) directly binds to RAB5-GTP on E. chaffeensis-containing vacuoles. Consequently, Etf-2 hinders the engagement of RAB5 GTPase-activating protein with RAB5-GTP, delays maturation of Ehrlichia vacuoles to late endosomes, thus facilitates infection. As C-terminal half of Etf-2 (Etf-2C) binds RAB5-GTP, a random synthetic library of VHHs was screened for binding to Etf-2C, and for inhibition of Etf-2 binding to RAB5 in human cells when expressed intracellularly (IBs). Positive IBs were tested for inhibition of Etf-2 functions and E. chaffeensis infection, and lipid nanoparticles-encapsulated mRNAs (mRNAs-LNP) platform was used to deliver IBs in vitro and in mice.

We have identified two distinct IBs that inhibit Etf-2 binding to RAB5 and Etf-2 functions in vitro. Synthesized mRNA-LNP encoding anti-Etf-2 IBs significantly inhibited E. chaffeensis infection in cell cultures and in a mouse model.

The results demonstrate the feasibility of mRNA-LNP encoding IBs as intracellular probes and a precision therapy addressing underlying cause of obligatory intracellular infection.

The online version contains supplementary material available at 10.1186/s12929-025-01171-5.

## Linked entities

- **Genes:** etf2 (electron transfer flavoprotein alpha subunit) [NCBI Gene 2542385], RAB5A (RAB5A, member RAS oncogene family) [NCBI Gene 5868]
- **Diseases:** rickettsiosis (MONDO:0006956), human monocytic ehrlichiosis (MONDO:0000225)
- **Species:** Ehrlichia chaffeensis (taxon 945), Mus musculus (taxon 10090)

## Full-text entities

- **Diseases:** infection (MESH:D007239), infectious diseases (MESH:D003141), intracellular infection (MESH:D015270), Rickettsiosis (MESH:D012282), E. chaffeensis infection (MESH:D016873)
- **Chemicals:** RAB5 (-), lipid (MESH:D008055)
- **Species:** Mus musculus (house mouse, species) [taxon 10090], Ehrlichia chaffeensis (species) [taxon 945], Homo sapiens (human, species) [taxon 9606], Ehrlichia (genus) [taxon 943]

## Figures

7 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12344899/full.md

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Source: https://tomesphere.com/paper/PMC12344899