Abstract
Neuropathic pain (NeP) in humans is often a life-long condition with no effective therapy available. The higher incidence of female gender in NeP onset is worldwide reported, and although the cause is generally attributed to sex hormones, the actual mechanisms and the players involved are still unclear. Glial and immune cells take part in NeP development, and orchestrate the neuroimmune and inflammatory response, releasing pro-inflammatory factors with chemoattractant properties that activate resident immune cells and recruit immune cells from circulation. The neuro-immune crosstalk is a key contributor to pain hypersensitivity following peripheral nervous system injury. Our previous works showed that in spite of the fact that female mice had an earlier analgesic response than males following nerve lesion, the recovery from NeP was never complete, suggesting that this difference could occur in the very early stages after injury. To further investigate gender differences in immune and neuroimmune responses to NeP, we studied the main immune cells and mediators elicited both in plasma and sciatic nerves by peripheral nerve lesion. After injury, we found a different pattern of distribution of immune cell populations showing either a higher infiltration of T cells in nerves from females or a higher infiltration of macrophages in nerves from males. Moreover, in comparison to male mice, the levels of cytokines and chemokines were differently up- and down-regulated in blood and nerve lysates from female mice. Our study provides some novel insights for the understanding of gender-associated differences in the generation and perseveration of NeP as well as for the isolation of specific neurodegenerative mechanisms underlying NeP. The identification of gender-associated inflammatory profiles in neuropathy is of key importance for the development of differential biomarkers and gender-specific personalized medicine.
Highlights
IntroductionNeuropathic pain (NeP) is a major problem in clinical practice, considerably affecting patients’ quality of life
In previous studies we demonstrated that male mice are highly different from females in terms of development of Neuropathic pain (NeP), glia activation and functional recovery [16,17]
We provide evidence for the relevance of sex differences in the activation of immune system and onset of NeP, providing evidence for differential inflammatory response, location and distribution of immune cell population, adding important pieces of information on the role played by sex in chronic pain via the mediation of the immune system
Summary
Neuropathic pain (NeP) is a major problem in clinical practice, considerably affecting patients’ quality of life. The pathophysiological mechanisms underlying NeP are still not fully understood and no effective pharmacological treatments are available. Increasing evidence indicates that glial and immune cells regulate nociceptive signaling in different anatomical regions, including the peripheral and central nervous systems [1,2,3,4,5]. Inflammatory mediators (pro-inflammatory cytokines and chemokines) released from immune cells can stimulate pain-relevant sensory afferent fibers either by a direct action or indirectly by stimulating other inflammatory mediators. Anti-inflammatory cytokines, which are released by immune and immune-like cells, may play a role in reducing pain and in the homeostasis of the system [3,6,7]
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