医学
扰动(地质)
神经科学
心理学
生物
古生物学
作者
Laurent Martin,Moyad Almuslim,Khaled A. Ismail,Mohab Ibrahim,Aubin Moutal,Kevin Cheng,Harrison J. Stratton,Theodore J. Price,Alexander J. Sandweiss,Baldomero M. Olivera,Rajesh Khanna,Amol Patwardhan
出处
期刊:Pain
[Ovid Technologies (Wolters Kluwer)]
日期:2024-09-19
标识
DOI:10.1097/j.pain.0000000000003391
摘要
As the incidence and survival rates of patients with cancer continues to grow, an increasing number of people are living with comorbidities, which often manifests as cancer-induced bone pain (CIBP). The majority of patients with CIBP report poor pain control from currently available analgesics. A conotoxin, Contulakin-G (CGX), has been demonstrated to be an antinociceptive agent in postsurgical and neuropathic pain states via a neurotensin receptor 2 (NTSR2)-mediated pathway. However, the efficacy and side effect profile of CGX have never been assessed in CIBP. Here, we evaluated CGX's antinociceptive potential in a rodent model of CIBP. We hypothesized that CGX engages the NTSR2 pathway, providing pain relief with minimal tolerance and motor side effects. Our results demonstrated that CGX intrathecal injection in mice with CIBP attenuated both spontaneous pain behaviors and evoked mechanical hypersensitivity, regardless of their sex. Furthermore, the antinociceptive effect of CGX was dependent upon expression of NTSR2 and the R-type voltage-gated calcium channel (Cav2.3); gene editing of these targets abolished CGX antinociception without affecting morphine antinociception. Examination of the side effect profile of CGX demonstrated that, unlike morphine, chronic intrathecal infusion maintained antinociception with reduced tolerance in rats with CIBP. Moreover, at antinociceptive doses, CGX had no impact on motor behavior in rodents with CIBP. Finally, RNAScope and immunoblotting analysis revealed expression of NTSR2 in both dorsal and ventral horns, while Cav2.3 was minimally expressed in the ventral horn, possibly explaining the sensory selectivity of CGX. Together, these findings support advancing CGX as a potential therapeutic for cancer pain.
科研通智能强力驱动
Strongly Powered by AbleSci AI