Abstract
We have previously demonstrated that Candida albicans induces differentiation of hematopoietic stem and progenitor cells (HSPCs) toward the myeloid lineage both in vitro and in vivo in a TLR2- and Dectin-1-dependent manner, giving rise to functional macrophages. In this work, we used an ex vivo model to investigate the functional consequences for macrophages derived from HSPCs in vivo-exposed to Pam3CSK4 (a TLR2 agonist) or C. albicans infection. Short in vivo treatment of mice with Pam3CSK4 results in a tolerized phenotype of ex vivo HSPC-derived macrophages, whereas an extended Pam3CSK4 treatment confers a trained phenotype. Early during candidiasis, HSPCs give rise to macrophages trained in their response to Pam3CSK4 and with an increased fungicidal activity; however, as the infection progresses to higher fungal burden, HSPC-derived macrophages become tolerized, while their fungicidal capacity is maintained. These results demonstrate that memory-like innate immune responses, already described for monocytes and macrophages, also take place in HSPCs. Interestingly, extended Pam3CSK4 treatment leads to an expansion of spleen HSPCs and myeloid cells, and drastically reduces the fungal burden in the kidney and spleen during systemic C. albicans infection. This protection against tissue invasion is abrogated by immunodepletion of HSPCs, suggesting their protective role against infection in this model. In addition, HSPCs produce in vitro cytokines and chemokines in response to C. albicans and Pam3CSK4, and these secretomes are capable of inducing myeloid differentiation of HSPCs and modulating peritoneal macrophage cytokine responses. Taken together, these data assign an active role for HSPCs in sensing pathogens during infection and in contributing to host protection by diverse mechanisms.
Highlights
Candida albicans is the microorganism most frequently causing opportunistic fungal infections
We have previously reported that in vitro detection of TLR2 and Dectin-1 ligands by hematopoietic stem and progenitor cells (HSPCs) impacts the antimicrobial function of the macrophages they produce (Yáñez et al, 2013b; Megías et al, 2016; Martínez et al, 2017)
We sought to determine whether HSPCs may sense microorganisms in vivo using a mouse model of systemic candidiasis, and whether this may alter the function of the macrophages they produce ex vivo
Summary
Candida albicans is the microorganism most frequently causing opportunistic fungal infections. Systemic candidiasis are lifethreatening infections whose frequency has increased as a result of an expanding hospitalized and immunocompromised population Phagocytes, such as neutrophils, dendritic cells, monocytes and macrophages, are crucial for resistance to candidiasis. C. albicans cells are sensed directly by myeloid cells through many PRRs including different members of the Toll-like receptor (TLR) and C-type lectin receptor (CLR) families (Luisa Gil et al, 2016; Lionakis and Levitz, 2017) It has been known for a decade that, in addition to mature myeloid cells, hematopoietic stem and progenitor cells (HSPCs) express some functional PRRs. TLR signaling on hematopoietic stem cells (HSCs) provokes cell cycle entry and myeloid differentiation (Nagai et al, 2006; Sioud et al, 2006; De Luca et al, 2009). This observation opened new perspectives on host-pathogen interactions concerning mechanisms responsible for emergency myelopoiesis during infection (Scumpia et al, 2010; King and Goodell, 2011; Yáñez et al, 2013a; Boettcher and Manz, 2017)
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