In vivo gene transfer of parvalbumin improves diastolic function in aged rat hearts

doi:10.1016/j.cardiores.2004.06.028

Cardiovascular Research 2005 66(2):318-323; doi:10.1016/j.cardiores.2004.06.028

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In vivo gene transfer of parvalbumin improves diastolic function in aged rat hearts

Ulrich Schmidt^a, Xinsheng Zhu^a, Djamel Lebeche^b, Fawzia Huq^b, J. Luis Guerrero^b and Roger J. Hajjar^b^,*

^aDepartment of Anesthesia and Critical Care, Massachusetts General Hospital and Harvard Medical School, Boston, MA 02114, United States
^bCardiovascular Research Center, Massachusetts General Hospital and Harvard Medical School, Boston, MA 02129, United States

^* Corresponding author. Cardiovascular Research Center, Massachusetts General Hospital and Harvard Medical School, 149 13th Street, MA 02129, United States. Tel.: +1 617 726 3748; fax: +1 617 724 5806. Email address: rhajjar{at}partners.org

Objective: Diastolic dysfunction is a characteristic findingof the aged mammalian heart. Parvalbumin acts as a Ca²⁺ sinkand enhances relaxation in skeletal muscle, and overexpressionof parvalbumin in myocardium increased cardiac relaxation invitro as well as in vivo. Therefore, the objective of this studyis to test the hypothesis that in vivo gene transfer of parvalbuminwill improve diastolic dysfunction in aged rat heart.

Methods: We used adenovirus to transfer parvalbumin into twodifferent rat models of aging: the Fischer 344 (F344) and theFischer 344 x Brown Norway F1 hybrid (F344 x BN). Cardiac functionwas measured and compared after gene transfer.

Results: In vivo overexpression of parvalbumin in both rat agingmodels had no effect on systolic parameters but reduced leftventricular diastolic pressure and the time course of pressuredecline. Overexpression of parvalbumin also improved the forcefrequency relationship in senescent rats.

Conclusion: In vivo overexpression of parvalbumin improves diastolicdysfunction in two rat models of senescence, and this effectis independent of the rat strain investigated. The results showpromise that gene therapy of parvalbumin may address the impairedCa²⁺ homeostasis and diastolic dysfunction without an increasein energy expenditure.

KEYWORDS Gene transfer; Aging; Contractile function; Hemodynamics

Time for primary review 21 days

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