Differences in Ca2+-handling and sarcoplasmic reticulum Ca2+-content in isolated rat and rabbit myocardium

Citation
Ls. Maier et al., Differences in Ca2+-handling and sarcoplasmic reticulum Ca2+-content in isolated rat and rabbit myocardium, J MOL CEL C, 32(12), 2000, pp. 2249-2258
Citations number
29
Categorie Soggetti
Cardiovascular & Hematology Research
Journal title
JOURNAL OF MOLECULAR AND CELLULAR CARDIOLOGY
ISSN journal
00222828 → ACNP
Volume
32
Issue
12
Year of publication
2000
Pages
2249 - 2258
Database
ISI
SICI code
0022-2828(200012)32:12<2249:DICASR>2.0.ZU;2-C
Abstract
We made novel measurements of the influence of rest intervals and stimulati on frequency on twitch contractions and on sarcoplasmic reticulum (SR) Ca2-content (using rapid cooling contractures, RCCs) in isolated ventricular m uscle strips from rat and rabbit hearts at a physiological temperature of 3 7 degreesC, In addition, the frequency-dependent relative contribution of S R Ca2+-uptake and Na+/Ca2+-exchange for cytosolic Ca2+-removal was assessed by paired RCCs. With increasing rest intervals (1-240 s) post-rest twitch force and RCC amplitude decreased monotonically in rabbit myocardium (after 240 s by 45 +/- 10% and 61 +/- 11%, respectively; P < 0.05, n = 14). in co ntrast, rat myocardium (n = II) exhibited a parallel increase in post-rest twitch force (by 67 <plus/minus> 16% at 240 s; P < 0.05) and RCC amplitude (by 20 <plus/minus> 14%; P < 0.05). In rabbit myocardium (n = 11), increasi ng stimulation frequency from 0.25 to 3 Hz increased twitch force by 295 <p lus/minus> 50% (P < 0.05) and RCC amplitude by 305 <plus/minus> 80% (P < 0. 05). In contrast, in rat myocardium (n = 6)! twitch force declined by 43 <p lus/minus> 7% (P < 0.05), while RCC amplitude decreased only insignificantl y (by 16 <plus/minus> 7%). The SR Ca2+-uptake relative to Na+/Ca2+-exchange (based on paired RCCs) increased progressively with frequency in rabbit, b ut not in rat myocardium (similar to 66 +/- 2% at all frequencies). We conc lude that increased SR Ca2+-load contributes to the positive force-frequenc y relationship in rabbits and post-rest potentiation of twitch force in rat s. Decreased SR Ca2+-load contributes to post-rest decay of twitch force in rabbits, but may play only a minor role in the negative force-frequency re lationship in rats, SR Ca2+-release channel refractoriness may contribute i mportantly to the negative force-frequency relationship in rat and recovery from refractoriness may contribute to post-rest potentiation, (C) 2000 Aca demic Press.