Force production in mechanically isolated cardiac myocytes from human ventricular muscle tissue

doi:10.1016/S0008-6363(98)00019-4

Cardiovascular Research 1998 38(2):414-423; doi:10.1016/S0008-6363(98)00019-4
© 1998 by European Society of Cardiology

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Force production in mechanically isolated cardiac myocytes from human ventricular muscle tissue

J van der Velden^a^,*, L.J Klein^b, M van der Bijl^a, M.A.J.M Huybregts^c, W Stooker^c, J Witkop^c, L Eijsman^c, C.A Visser^b, F.C Visser^b and G.J.M Stienen^a

^aLaboratory for Physiology, Institute for Cardiovascular Research (ICaR-VU), Free University, van der Boechorststraat 7, 1081 BT Amsterdam, Netherlands
^bDepartment of Cardiology, Institute for Cardiovascular Research (ICaR-VU), Free University, Amsterdam, Netherlands
^cDepartment of Cardiac Surgery, Institute for Cardiovascular Research (ICaR-VU), Free University, Amsterdam, Netherlands

^* Corresponding author. Tel.: +31 20 4448122; fax: +31 20 4448255.

Objective: The expression of contractile isoforms changes duringvarious pathological conditions but little is known about theconsequences of these changes for the mechanical propertiesin human ventricular muscle. We investigated the feasibilityof simultaneous determination of protein composition and isometricforce development in single cardiac myocytes from human ventricularmuscle tissue obtained from small biopsies taken during openheart surgery. Methods: Small biopsies of about 3 mg wet weightwere taken during open heart surgery from patients with aorticvalve stenosis. These biopsies were divided in two parts. Onepart ( $~$ 2 mg) was used for mechanical isolation of single myocytesand subsequent force measurement while the remaining part wasused, in aliquots of 1 µg dry weight, for protein analysisby polyacrylamide gel electrophoresis. The myocytes were attachedwith silicon glue to a sensitive force transducer and a piezoelectricmotor, mounted on an inverted microscope and permeabilized bymeans of Triton X-100. Force development was studied at variousfree calcium concentrations. Results: From all biopsies, myocytescould be obtained and the composition of contractile proteinscould be determined. The average isometric force (±s.e.m.)at saturating calcium concentration obtained on 20 myocytesfrom 5 patients amounted to 51±8 kN/m². Force was halfmaximal at a calcium concentration of 2.47±0.10 µM.Conclusion: These measurements indicate that it is possibleto study the correlation between mechanical properties and proteincomposition in small biopsies from human ventricular muscle.

KEYWORDS Human; Cardiac myocyte; Muscle contraction; Protein composition; Contractile properties

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