Lentiviral Vectors and Protocols for Creation of Stable hESC Lines for Fluorescent Tracking and Drug Resistance Selection of Cardiomyocytes

Developmental, physiological and tissue engineering studies critical to the development of successful myocardial regeneration therapies require new ways to effectively visualize and isolate large numbers of fluorescently labeled, functional cardiomyocytes.Here we describe methods for the clonal expansion of engineered hESCs and make available a suite of lentiviral vectors for that combine Blasticidin, Neomycin and Puromycin resistance based drug selection of pure populations of stem cells and cardiomyocytes with ubiquitous or lineage-specific promoters that direct expression of fluorescent proteins to visualize and track cardiomyocytes and their progenitors. The phospho-glycerate kinase (PGK) promoter was used to ubiquitously direct expression of histone-2B fused eGFP and mCherry proteins to the nucleus to monitor DNA content and enable tracking of cell migration and lineage. Vectors with T/Brachyury and alpha-myosin heavy chain (alphaMHC) promoters targeted fluorescent or drug-resistance proteins to early mesoderm and cardiomyocytes. The drug selection protocol yielded 96% pure cardiomyocytes that could be cultured for over 4 months. Puromycin-selected cardiomyocytes exhibited a gene expression profile similar to that of adult human cardiomyocytes and generated force and action potentials consistent with normal fetal cardiomyocytes, documenting these parameters in hESC-derived cardiomyocytes and validating that the selected cells retained normal differentiation and function.The protocols, vectors and gene expression data comprise tools to enhance cardiomyocyte production for large-scale applications

Arteriogenesis requires toll-like receptor 2 and 4 expression in bone-marrow derived cells

Adaptive collateral growth (arteriogenesis) is an important protective mechanism against ischemic injury in patients with cardiovascular disease. Arteriogenesis involves enlargement of pre-existent arterial anastomoses and shares many mechanistic similarities with inflammatory processes. Although infusion of the Toll-like receptor (TLR) 4 ligand lipopolysaccharide (LPS) has shown to result in a significant stimulation of arteriogenesis and both Toll-like receptor 2 and 4 are involved in structural arterial adaptations, the requirement for TLRs in arteriogenesis has not yet been established. We therefore subjected TLR 2 null and TLR 4 defective mice to unilateral femoral artery occlusion. At 7 days, both TLR 2 null and TLR 4 defective mice showed a significant reduction (similar to 35%) of collateral perfusion. Histological staining showed that TLR 2 and TLR 4 expression during arteriogenesis is mostly restricted to infiltrating leukocytes. To distinguish between the functional importance of vascular and leukocytic TLRs in arteriogenesis, cross-over bone marrow transplantation was performed 6 weeks before femoral artery occlusion. Perfusion measurements showed that transplantation of wild-type bone marrow into TLR 2 null and TLR 4 defective mice rescued the impaired arteriogenesis, while injection of TLR 2 null and TLR 4 defective bone marrow into wild-type mice significantly reduced collateral vessel growth to levels of TLR null/defective mice. RT-PCR analysis demonstrated a significant upregulation of two endogenous TLR ligands EDA and Hsp60 (91.7 fold and 1.9 fold respectively) in regions of collateral vessel formation. This study illustrates the involvement of TLR 2 and TLR 4 in adaptive collateral artery growth and shows the importance of TLR 2 and 4 expression by bone-marrow derived cells for this process. (C) 2010 Elsevier Ltd. All rights reserve