Effects of Acidosis and Inorganic Phosphate on Ca²⁺ Sensitivity of Young and Older Adult Skeletal Muscle Fibers

Authors

• Laura E. Teigen, Marquette University
• Carlos S. Zepeda, Marquette University
• Isabell Dobrzycki, Marquette University
• Sandra Hunter, Marquette UniversityFollow
• Robert Fitts, Marquette UniversityFollow
• Christopher W. Sundberg, Marquette UniversityFollow

Document Type

Article

Publication Date

12-2025

Publisher

American Physiological Society

Source Publication

American Journal of Physiology: Cell Physiology

Source ISSN

0002-9513

Abstract

The cellular mechanisms for the age-related loss in skeletal muscle contractile function and increased fatigability are unresolved. We previously observed that the depressive effects of fatiguing levels of hydrogen (H⁺; pH 6.8, 6.6, and 6.2) and inorganic phosphate (P_i; 12, 20, and 30 mM) did not differ in myofibers from young compared with older adults. However, these studies used saturating Ca²⁺, while fatigue during high-intensity contractions in vivo also likely involves a decrease in myoplasmic free Ca²⁺. Thus, we compared the Ca²⁺ sensitivity of myofibers from 10 young (22.1 ± 3.6; 5 women) and 13 older (71.7 ± 5.5; 7 women) adults in conditions mimicking quiescent (pH 7 + 4 mM P_i) and fatigued (pH 6.2 + 30 mM P_i) muscle. Fast fiber cross-sectional area was ∼35% smaller in older (4,859 ± 2,116 µm²) compared with young (7,446 ± 2,399 µm², P = 0.002), which corresponded with lower maximal absolute force (P_o) in both quiescent (old = 0.75 ± 0.30 mN; young = 1.13 ± 0.32 mN; P = 0.002) and fatigue conditions (old = 0.35 ± 0.14 mN; young = 0.52 ± 0.16 mN; P = 0.002). There were no differences in fast fiber size-specific P_o, indicating the age-related decline in force was due to differences in fiber size. Elevated H⁺ and P_i shifted the force-pCa relationship to the right, confirming nonhuman studies that these metabolites contribute to fatigue by depressing the sensitivity of the myofilaments to Ca²⁺. However, Ca²⁺ sensitivity was not different with age or sex in either condition, and the metabolite-induced shift in the force-pCa relationship did not differ with age in either the slow (P = 0.507) or fast (P = 0.115) fibers. These data suggest the age-related increase in fatigability of limb muscles cannot be explained by an increased sensitivity of the myofibers to elevated H⁺ and P_i in maximal or submaximal Ca²⁺.

Comments

Published version. American Journal of Physiology: Cell Physiology, Vol. 330, No. 1 (2025): C224-C237. DOI. © 2025 American Physiological Society. Used with permission.

Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License

Recommended Citation

Teigen, Laura E.; Zepeda, Carlos S.; Dobrzycki, Isabell; Hunter, Sandra; Fitts, Robert; and Sundberg, Christopher W., "Effects of Acidosis and Inorganic Phosphate on Ca²⁺ Sensitivity of Young and Older Adult Skeletal Muscle Fibers" (2025). Physical Therapy Faculty Research and Publications. 260.
https://epublications.marquette.edu/phys_therapy_fac/260