CD40L modulates transcriptional signatures of neutrophils in the bone marrow associated with development and trafficking
Tábata Takahashi França, Ashraf Al-Sbiei, Ghada Bashir, Yassir Awad Mohamed, Ranieri Coelho Salgado, Lucila Akune Barreiros, Sarah Maria da Silva Napoleão, Cristina Worm Weber, Janaíra Fernandes Severo Ferreira, Carolina Sanchez Aranda, Carolina Prando, Mayra B. de Barros Dorna, Igor Jurisica, Maria J. Fernandez-Cabezudo, Hans D. Ochs, Antonio Condino-Neto, Basel K. Al-Ramadi, Otavio Cabral-Marques
Tábata Takahashi França, Ashraf Al-Sbiei, Ghada Bashir, Yassir Awad Mohamed, Ranieri Coelho Salgado, Lucila Akune Barreiros, Sarah Maria da Silva Napoleão, Cristina Worm Weber, Janaíra Fernandes Severo Ferreira, Carolina Sanchez Aranda, Carolina Prando, Mayra B. de Barros Dorna, Igor Jurisica, Maria J. Fernandez-Cabezudo, Hans D. Ochs, Antonio Condino-Neto, Basel K. Al-Ramadi, Otavio Cabral-Marques
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Resource and Technical Advance Cell biology Immunology

CD40L modulates transcriptional signatures of neutrophils in the bone marrow associated with development and trafficking

Abstract

Neutrophils are produced in the BM in a process called granulopoiesis, in which progenitor cells sequentially develop into mature neutrophils. During the developmental process, which is finely regulated by distinct transcription factors, neutrophils acquire the ability to exit the BM, properly distribute throughout the body, and migrate to infection sites. Previous studies have demonstrated that CD40 ligand (CD40L) influences hematopoiesis and granulopoiesis. Here, we investigate the effect of CD40L on neutrophil development and trafficking by performing functional and transcriptome analyses. We found that CD40L signaling plays an essential role in the early stages of neutrophil generation and development in the BM. Moreover, CD40L modulates transcriptional signatures, indicating that this molecule enables neutrophils to traffic throughout the body and to migrate in response to inflammatory signals. Thus, our study provides insights into the complex relationships between CD40L signaling and granulopoiesis, and it suggests a potentially novel and nonredundant role of CD40L signaling in neutrophil development and function.

Authors

Tábata Takahashi França, Ashraf Al-Sbiei, Ghada Bashir, Yassir Awad Mohamed, Ranieri Coelho Salgado, Lucila Akune Barreiros, Sarah Maria da Silva Napoleão, Cristina Worm Weber, Janaíra Fernandes Severo Ferreira, Carolina Sanchez Aranda, Carolina Prando, Mayra B. de Barros Dorna, Igor Jurisica, Maria J. Fernandez-Cabezudo, Hans D. Ochs, Antonio Condino-Neto, Basel K. Al-Ramadi, Otavio Cabral-Marques

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Figure 9

Proposed mechanism of CD40L-induced myelopoiesis.

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Proposed mechanism of CD40L-induced myelopoiesis. Our results suggest th...
Our results suggest that CD40L orchestrates neutrophil development and trafficking by modulating transcriptional signatures in the BM. The presence of CD40L induces BM stromal cells to release growth factors (e.g., G-CSF, GM-CSF, and flt3L; refs. 22, 23), which act on myeloid lineages (specifically neutrophils), influencing the production and development of these cells (9, 21). Mature neutrophils are released into the bloodstream with the capacity to migrate to sites of infection in response to chemoattractants and kill pathogens (2). In the absence of CD40L signaling, the generation and development of the myeloid lineage in the BM is impaired and, more specifically, results in the generation of neutrophils with dysregulated transcriptome profile that affects the ability to traffic throughout the body, migrate to sites of infection in response to inflammatory signals, and properly eliminate invading pathogens (33). MB, Myeloblast; PM, promyelocytes; MC, myelocyte; MM, metamyelocytes; BC, band cell; NE, neutrophil.