Arabian Journal of Chemistry (Apr 2024)
Teriflunomide mitigates pain-depression dyad in mice: Modulation of PI3K-mediated defensive signaling
Abstract
The pain-depression dyad refers to a complex and often bidirectional relationship between physical pain and depression. It suggests that these two experiences can interact and exacerbate each other, leading to a cycle of worsening symptoms. Both pain and depression involve changes in brain chemistry and neural pathways. The phosphoinositide 3-kinase (PI3K) signaling pathway often contributes to mood stabilization and in alleviating pain. Teriflunomide is an active metabolite of leflunomide that positively impacts brain functioning. Thus, the current study was designed to investigate the potential of teriflunomide against reserpine-induced pain-depression dyad and also examined the role of PI3K in the observed effect of teriflunomide. Reserpine (0.5 mg/Kg; i.p) treatment for 3 consecutive days significantly induced the pain-depression dyad along with memory impairment in mice. Administration of reserpine significantly reduced the brain glutathione (GSH) level, uplifting the brain thiobarbituric acid reactive substance (TBARS) and serum tumor necrosis factor-alpha (TNF-α) level. Teriflunomide (10 and 20 mg/Kg) treatment significantly reverted the depressive, pain-inducing and memory-impairing effect of reserpine. Both doses of teriflunomide significantly uplifted the brain GSH level and downregulated the serum TNF-α level. Whereas, only a 20 mg/Kg dose of teriflunomide significantly reduced the brain TBARS level. Furthermore, the PI3K inhibitor (LY294002) treatment significantly alleviated the anti-depressant, anti-nociceptive and memory-improving effect of teriflunomide (20 mg/Kg). LY294002 treatment also reverted the teriflunomide-induced biochemical modulations (20 mg/Kg). LY294002 significantly reduced the brain GSH and uplifted the level of TBARS and serum TNF-α level. Conclusively, the results of the current study delineate that teriflunomide might exert its anti-depressant, anti-nociceptive and memory-improving effect by stimulating the PI3K-mediated protection against oxidative and inflammatory stress.
