Thermal injury induces greater resistance to d-tubocurarine in local rather than in distant muscles in the rat.

UNLABELLED: We tested the hypothesis that resistance to d-tubocurarine (dTC) is more intense in muscles closer to, than distant from, burn, and is related to the expression of immature and total acetylcholine receptors (AChRs). Anesthetized rats received approximately 4% surface area burn over the tibialis muscle of one leg with the contralateral leg serving as control, or approximately 45% of the flank burn, with sham-burned pair fed controls. At 1, 4, 7, or 14 days later, the 50% effective dose of dTC, membrane AChRs, and messenger ribonucleic acid (mRNA) that encode the AChR gamma-subunit (AChRgamma-mRNA) were quantified in the tibialis. After the local leg burn, AChRs increased at Days 4, 7, and 14, and AChRgamma-mRNA at Days 4 and 7 after burn. The increased AChRgamma-mRNA correlated with total AChRs (r = 0.82), suggesting that the up-regulated AChRs may contain the immature isoform. The 50% effective dose of dTC after the local leg burn increased 1.2- to 1.5-fold at all periods and correlated significantly with AChRs (r = 0.54) and AChRgamma-mRNA (r = 0.57). After the flank burn, resistance was seen at Day 14 in association with muscle atrophy; AChRs and AChRgamma-mRNA were unaltered. The resistance to dTC after a local burn occurs sooner, is more marked, and is probably related to both increases and isoform changes in AChRs. The resistance at distant muscles appears unrelated to AChR changes. IMPLICATIONS: The resistance to d-tubocurarine after a burn differs between muscles near and distant from the burn and seems to depend on quantitative and qualitative changes in acetylcholine receptors and muscle atrophy associated with the insult.