Re S1).Cardiomyogenic Differentiation of hiPSCsEmbryoid bodies (EBs) were generated after mechanical dissection of hiPSCs and maintained in suspension culture in a cardiomyogenic medium or CARM which contains DMEM High Glucose 485 mL, L-Glutamine 5 mL, NEAA 5 ml, Selenium Transferrin 5 mL 1081537 (Sigma) and 2-mercaptoethanol 3.5 mL supplemented with 5 mM SB 203580 (Sigma), a specific p38MAPK inhibitor [10] in low adherent 6-well plates. Subsequently, EB aggregates were formed and contracting outgrowths emerged from Day 12 onwards. After Day 15, the contracting EB aggregates were plated on 0.1 gelatin in DMEM containing 2 FBS. On Day 21, the contracting area of EBs were mechanically dissected out and enzymatically HDAC-IN-3 web Dissociated in Collagenase B (Roche) to small cell clusters containing 15,30 cells according to published protocol with some modifications [11]. Dissociated CMs were continually cultured in DMEM+2 FBS for 1 week before testing. All tested hiPSCCMs were kept at the same time point (6-weeks) post the initiation of cardiac differentiation.Statistical AnalysisCa2+ sparks, Ca2+ transients, and SR Ca2+ contents were analyzed using a computer program written in IDL 5.4 software, as previously described [13]. Results were expressed as mean 6 standard error of the mean (SEM). Statistical significance was determined using Student-t test or non-parametric Kruskal-Wallis test, when appropriate. A p value ,0.05 was considered to be statistically significant.Results Characterization of hiPSCshiPSC lines showed characteristic hESC-like morphology and comparable expression of hESC pluripotent markers including Oct-4, SSEA-4, TRA-1-81 and TRA-1-60 (Figure 1A). They formed teratoma in SCID mice and maintained normal karyotypes (data not shown).ImmunocytochemistryDetail description of immunocytochemistry assay of hiPSCs is described in Text S1. Briefly, immunocytochemistry assay of hiPSC-CMs was performed with following procedure. Dissociated cultured on glass coverslips were fixed using 4 paraformaldehyde and permeabilized with 0.1 Triton-X-100 (Sigma). After blocking with 5 goat serum in PBS for 1 h at room temperature, cells stained with mouse anti-human cardiac sarcomeric alphaactinin (a-actinin) (clone EA-35, Sigma) and mouse anti-human cardiac myosin heave chain, beta (b-MHC) (Alexis Biochemicals, FL, USA). Next, the primary mAbs was removed and replaced with goat anti ouse IgG (A11001 Alexa Fluor 488, Invitrogen) for 1 hour. Nuclei were counter stained with DAPI.Cardiomyocyte Differentiation of hiPSCsUnder cardiac differentiation condition, spontaneously contracting EBs were 1662274 derived from hiPSC lines after 15 days. Dissociated hiPSC-CMs in the small clusters containing 15,30 CMs with uniformed subtypes (Figure 1Ba), were found to express sarcomeric alpha-actinin (a-actinin) and beta-myosin heavy chain (b-MHC) with cross striations that were order NT-157 typical of CMs derived from hESCs (Figure 1Bb, c). Moreover, three subtypes of CMs were identified including ventricular-, atrial- and nodal-like CMs (V-CMs, A-CMs and N-CMs) were identified in hiPSC-CMs (Figure 1C). The subtypes of hiPSC-CMs were determined by their typical AP properties including, action potential amplitude (APA), action potential duration (APD) and dV/dtmax. From a total of 100 cardiomyocytes examined, the percentages of V-CMs, A-CMs and N-CMs were about 61 , 17.4 and 21.6 , respectively (Table S1). It was noted that smallRecording of Action PotentialDissociated hiPSC-CMs were culture.Re S1).Cardiomyogenic Differentiation of hiPSCsEmbryoid bodies (EBs) were generated after mechanical dissection of hiPSCs and maintained in suspension culture in a cardiomyogenic medium or CARM which contains DMEM High Glucose 485 mL, L-Glutamine 5 mL, NEAA 5 ml, Selenium Transferrin 5 mL 1081537 (Sigma) and 2-mercaptoethanol 3.5 mL supplemented with 5 mM SB 203580 (Sigma), a specific p38MAPK inhibitor [10] in low adherent 6-well plates. Subsequently, EB aggregates were formed and contracting outgrowths emerged from Day 12 onwards. After Day 15, the contracting EB aggregates were plated on 0.1 gelatin in DMEM containing 2 FBS. On Day 21, the contracting area of EBs were mechanically dissected out and enzymatically dissociated in Collagenase B (Roche) to small cell clusters containing 15,30 cells according to published protocol with some modifications [11]. Dissociated CMs were continually cultured in DMEM+2 FBS for 1 week before testing. All tested hiPSCCMs were kept at the same time point (6-weeks) post the initiation of cardiac differentiation.Statistical AnalysisCa2+ sparks, Ca2+ transients, and SR Ca2+ contents were analyzed using a computer program written in IDL 5.4 software, as previously described [13]. Results were expressed as mean 6 standard error of the mean (SEM). Statistical significance was determined using Student-t test or non-parametric Kruskal-Wallis test, when appropriate. A p value ,0.05 was considered to be statistically significant.Results Characterization of hiPSCshiPSC lines showed characteristic hESC-like morphology and comparable expression of hESC pluripotent markers including Oct-4, SSEA-4, TRA-1-81 and TRA-1-60 (Figure 1A). They formed teratoma in SCID mice and maintained normal karyotypes (data not shown).ImmunocytochemistryDetail description of immunocytochemistry assay of hiPSCs is described in Text S1. Briefly, immunocytochemistry assay of hiPSC-CMs was performed with following procedure. Dissociated cultured on glass coverslips were fixed using 4 paraformaldehyde and permeabilized with 0.1 Triton-X-100 (Sigma). After blocking with 5 goat serum in PBS for 1 h at room temperature, cells stained with mouse anti-human cardiac sarcomeric alphaactinin (a-actinin) (clone EA-35, Sigma) and mouse anti-human cardiac myosin heave chain, beta (b-MHC) (Alexis Biochemicals, FL, USA). Next, the primary mAbs was removed and replaced with goat anti ouse IgG (A11001 Alexa Fluor 488, Invitrogen) for 1 hour. Nuclei were counter stained with DAPI.Cardiomyocyte Differentiation of hiPSCsUnder cardiac differentiation condition, spontaneously contracting EBs were 1662274 derived from hiPSC lines after 15 days. Dissociated hiPSC-CMs in the small clusters containing 15,30 CMs with uniformed subtypes (Figure 1Ba), were found to express sarcomeric alpha-actinin (a-actinin) and beta-myosin heavy chain (b-MHC) with cross striations that were typical of CMs derived from hESCs (Figure 1Bb, c). Moreover, three subtypes of CMs were identified including ventricular-, atrial- and nodal-like CMs (V-CMs, A-CMs and N-CMs) were identified in hiPSC-CMs (Figure 1C). The subtypes of hiPSC-CMs were determined by their typical AP properties including, action potential amplitude (APA), action potential duration (APD) and dV/dtmax. From a total of 100 cardiomyocytes examined, the percentages of V-CMs, A-CMs and N-CMs were about 61 , 17.4 and 21.6 , respectively (Table S1). It was noted that smallRecording of Action PotentialDissociated hiPSC-CMs were culture.