Islet1 cardiovascular progenitors: a single source for heart lineages?
2008•journals.biologists.com
The creation of regenerative stem cell therapies for heart disease requires that we
understand the molecular mechanisms that govern the fates and differentiation of the
diverse muscle and non-muscle cell lineages of the heart. Recently, different cardiac cell
types have been reported to arise from a common, multipotent Islet1 (Isl1)-positive
progenitor, suggesting that a clonal model of heart lineage diversification might occur that is
analogous to hematopoiesis. The ability to isolate, renew and differentiate Isl1+ precursors …
understand the molecular mechanisms that govern the fates and differentiation of the
diverse muscle and non-muscle cell lineages of the heart. Recently, different cardiac cell
types have been reported to arise from a common, multipotent Islet1 (Isl1)-positive
progenitor, suggesting that a clonal model of heart lineage diversification might occur that is
analogous to hematopoiesis. The ability to isolate, renew and differentiate Isl1+ precursors …
The creation of regenerative stem cell therapies for heart disease requires that we understand the molecular mechanisms that govern the fates and differentiation of the diverse muscle and non-muscle cell lineages of the heart. Recently, different cardiac cell types have been reported to arise from a common, multipotent Islet1 (Isl1)-positive progenitor, suggesting that a clonal model of heart lineage diversification might occur that is analogous to hematopoiesis. The ability to isolate, renew and differentiate Isl1+ precursors from postnatal and embryonic hearts and from embryonic stem cells provides a powerful cell-based system for characterizing the signaling pathways that control cardiovascular progenitor formation, renewal, lineage specification and conversion to specific differentiated progeny.
journals.biologists.com