Authors: Emanuel J. Novais, Olivia K. Ottone, Eric V. Brown, Vedavathi Madhu, Victoria A. Tran, Pranay Ramteke, Abhijit S. Dighe, Michael D. Solga, Alexandra Manchel, Angelo C. Lepore, Makarand V. Risbud
Published: 2025-04-23
Source: Full article
There are no appropriate mouse models to study the pathophysiology of spontaneous disc herniations in a wild-type setting. SM/J mice, a poor healer inbred strain, presented a high incidence of age-associated lumbar disc herniations with neurovascular innervations. Transcriptomic comparisons of the SM/J annulus fibrosus with human tissues showed shared pathways related to immune cell activation and inflammation. Notably, aged SM/J mice showed increased pain sensitization and neuroinflammation with altered extracellular matrix regulation in the dorsal root ganglia and spinal cord. There were increased T cells in the vertebral marrow, and cytometry by time-of-flight analysis showed increased splenic CD8+ T cells, nonspecific activation of CD8+ memory T cells, and enhanced interferon-γ production in the myeloid compartment. Single-cell RNA sequencing of peripheral blood mononuclear cells showed more B cells, with lower proportions of T cells, monocytes, and granulocytes. This study highlights the contribution of genetic background and aging to increased susceptibility of spontaneous intervertebral disc herniations in a clinically relevant murine model.