Beyond the brain: microglia-like cells regulate peripheral neuronal soma size

Microglia, specialized immune cells of the central nervous system (CNS), have long been recognized for their ability to preserve brain homeostasis and respond to pathological disturbances [1]. These cells exhibit unique transcriptional signatures shaped by their yolk-sac (YS) origins and finely tuned by CNS-specific environmental cues [2,3,4]. To date, these specialized macrophages are thought to be exclusive to the CNS. A recent study by Wu et al., however, challenges the status quo, uncovering microglia-like cells outside the CNS and shedding light on their role in modulating neuronal soma size within the peripheral nervous system (PNS) [5].

Using single-cell RNA sequencing (scRNA-seq), Wu et al. systematically profiled immune cells in the CNS and PNS across multiple species. Through this comprehensive analysis, they identified a unique PNS macrophage population transcriptionally similar to microglia, termed PNS microglia-like cells, which are present in humans, macaques, and pigs but are absent in rodents. PNS microglia-like cells express canonical microglial markers such as P2RY12 (purinergic receptor P2Y12), TMEM119 (transmembrane protein 119), and the microglia lineage-determining transcription factor SALL1 (spalt-like transcription factor 1) but lack markers for border-associated macrophages such as MRC1 (mannose receptor C type 1) and F13A1 (coagulation factor XIII A chain). Furthermore, PNS microglia-like cells also share similar epigenetic profiles and potentially the same ontogeny as microglia. Developmentally, microglial ontogeny has been extensively studied in mouse models via lineage tracing techniques [6, 7]. To investigate the developmental trajectory of PNS microglia-like cells, Wu et al. created a time-resolved scRNA-seq dataset encompassing the human CNS and PNS tissues from CS10 (Carnegie Stage 10) to 24 PCW (postconceptional weeks) and performed trajectory analysis to infer the development of PNS microglia-like cells. These results suggest that PNS microglia-like cells are likely derived from YS macrophage progenitors and differentiate in parallel with CNS microglia.