Lindsay M. Milich scite author profile

The wound healing process that occurs after spinal cord injury is critical for maintaining tissue homeostasis and limiting tissue damage, but eventually results in a scar-like environment that is not conducive to regeneration and repair. A better understanding of this dichotomy is critical to developing effective therapeutics that target the appropriate pathobiology, but a major challenge has been the large cellular heterogeneity that results in immensely complex cellular interactions. In this study, we used single-cell RNA sequencing to assess virtually all cell types that comprise the mouse spinal cord injury site. In addition to discovering novel subpopulations, we used expression values of receptor–ligand pairs to identify signaling pathways that are predicted to regulate specific cellular interactions during angiogenesis, gliosis, and fibrosis. Our dataset is a valuable resource that provides novel mechanistic insight into the pathobiology of not only spinal cord injury but also other traumatic disorders of the CNS.

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The origin, fate, and contribution of macrophages to spinal cord injury pathology

Milich

2019

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Virtually all phases of spinal cord injury pathogenesis, including inflammation, cell proliferation and differentiation, as well as tissue remodeling are mediated in part by infiltrating monocytederived macrophages. It is now clear these infiltrating macrophages have distinct functions from resident microglia, and are capable of mediating both harmful and beneficial effects after injury. These divergent effects have been largely attributed to environmental cues, such as specific cytokines, that influence the macrophage polarization state. In this review, we also consider the possibility that different macrophage origins, including the spleen, bone marrow, and local selfrenewal, may also affect macrophage fate, and ultimately their function that contribute to the complex pathobiology of spinal cord injury.

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Single cell analysis of the cellular heterogeneity and interactions in the injured mouse spinal cord

Milich

Choi

Ryan

et al. 2020

Preprint

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The wound healing process that occurs after spinal cord injury is critical for maintaining tissue homeostasis and limiting tissue damage, but eventually results in a scar-like environment that is not conducive to regeneration and repair. A better understanding of this dichotomy is critical to developing effective therapeutics that target the appropriate pathobiology, but a major challenge has been the large cellular heterogeneity that results in immensely complex cellular interactions.In this study, we used single cell RNA sequencing to assess virtually all cell types that comprise the mouse spinal cord injury site. In addition to discovering novel subpopulations, we used expression values of receptor-ligand pairs to identify signaling pathways that potentially drive specific cellular interactions during angiogenesis, gliosis, and fibrosis. Our dataset is a valuable resource that provides novel mechanistic insight into the pathobiology of not only spinal cord injury, but also other traumatic disorders of the CNS.

show abstract

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Lindsay M. Milich

Single-cell analysis of the cellular heterogeneity and interactions in the injured mouse spinal cord

The origin, fate, and contribution of macrophages to spinal cord injury pathology

Single cell analysis of the cellular heterogeneity and interactions in the injured mouse spinal cord

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