Effects of load and tone on the mechanics of isolated human bronchial smooth muscle

Isotonic and isometric properties of nine human bronchial smoothmuscles were studied under various loading and tone conditions. Freshlydissected bronchial strips were electrically stimulated successively atbaseline, after precontraction with10⁷ M methacholine (MCh),and after relaxation with10⁵ M albuterol (Alb).Resting tension, i.e., preload determining optimal initial length(L_o) atbaseline, was held constant. Compared with baseline, MCh decreasedmuscle length to 93 ± 1%L_o(P < 0.001) before any electricalstimulation, whereas Alb increased it to 111 ± 3%L_o(P < 0.01). MCh significantlydecreased maximum unloaded shortening velocity (0.045 ± 0.007 vs.0.059 ± 0.007 L_o/s), maximalextent of muscle shortening (8.4 ± 1.2 vs. 13.9 ± 2.4%L_o), and peakisometric tension (6.1 ± 0.8 vs. 7.2 ± 1.0 mN/mm²). Alb restored all thesecontractile indexes to baseline values. These findings suggest that MChreversibly increased the number of active actomyosin cross bridgesunder resting conditions, limiting further muscle shortening and activetension development. After the electrically induced contraction,muscles showed a transient phase of decrease in tension below preload.This decrease in tension was unaffected by afterload levels but wassignificantly increased by MCh and reduced by Alb. These findingssuggest that the cross bridges activated before, but not during, theelectrically elicited contraction may modulate the phase of decrease intension below preload, reflecting the active part of resting tension.