An analysis of the clonality of cardiac progenitor cells (CPCs) and myocyte turnover in vivo requires genetic tagging of the undifferentiated cells so that the clonal marker of individual mother cells is traced in the specialized progeny. CPC niches in the atria and apex of the mouse heart were infected with a lentivirus carrying EGFP, and the destiny of the tagged cells was determined 1-5 months later. A common integration site was identified in isolated CPCs, cardiomyocytes, endothelial cells (ECs), and fibroblasts, documenting CPC self-renewal and multipotentiality and the clonal origin of the differentiated cell populations. Subsequently, the degree of EGFP-lentiviral infection of CPCs was evaluated 2-4 days after injection, and the number of myocytes expressing the reporter gene was measured 6 months later. A BrdU pulse-chasing protocol was also introduced as an additional assay for the analysis of myocyte turnover. Over a period of 6 months, each EGFP-positive CPC divided approximately eight times generating 230 cardiomyocytes; this value was consistent with the number of newly formed cells labeled by BrdU. To determine whether, human CPCs (hCPCs) are self-renewing and multipotent, these cells were transduced with the EGFP-lentivirus and injected after acute myocardial infarction in immunosuppressed rats. hCPCs, myocytes, ECs, and fibroblasts collected from the regenerated myocardium showed common viral integration sites in the human genome. Thus, our results indicate that the adult heart contains a pool of resident stem cells that regulate cardiac homeostasis and repair.F ate mapping protocols establish a lineage relationship between ancestors carrying the reporter gene and their descendents (1, 2), but do not provide information on the self-renewing property and clonogenicity of progenitor cells or clonal origin of daughter cells in vivo (3). Because of these limitations, viral gene-tagging remains the most accurate strategy for the analysis of stem cell growth (3-8). The semi-random insertion of retroviral and lentiviral vectors represents an effective tool for genetic marking, enabling the identification of the progeny generated by stem cell differentiation. Retroviruses and lentiviruses integrate permanently in the genome of the host cells; the insertion site of the viral genome is inherited by the population derived from the parental cell (6) and can be amplified by PCR. Thus, the detection of the sites of integration constitutes a unique approach for the documentation of self-renewal, clonogenicity, and multipotentiality of stem cells in vivo. So far, this methodology has been applied to the bone marrow (4-6) and the brain (3, 7, 8) and has not been used to characterize the mechanisms regulating cardiac homeostasis and pathology.The implementation of this technique in the adult heart is relevant for the incontrovertible demonstration of resident cardiac stem cells and the ability of the myocardium to undergo spontaneous regeneration. Moreover, the notion that cardiomyocytes have a long lifespan and ...
