D 30 for all mutant proteins as compared to the wild type

D 30 for all mutant proteins as compared to the wild type

D 30 for all mutant proteins as compared to the wild type NFATC1 (Figure 5, B,C).DiscussionCongenital heart diseases are still the leading cause of death in newborns in addition to being the most frequent congenital diseases in humans [6]. The genetic mechanisms underlying such diseases however, are being unraveled slowly in the last decade because of the tremendous work done on understanding the molecular mechanisms governing cardiac development in numerous organisms [34]. These mechanisms include the collaborative interaction between 10236-47-2 web transcription factors and their occupancy of conserved cis regulatory elements on different cardiac-specific promoters. The cloning and functional characterization of the genes encoding these transcription factors have successfully led to the formulation of hypotheses that mutations in these genes could cause heart malformations in humans. More importantly, the available data on genes such as GATA4, NKX2-5 and TBX5 doNFATC1 mutations hampered Calcineurin induced transcriptional activityIn order to assess the impact of the mutations on the regulatory function of NFATC1 protein, transactivation assays using the cyclin D1 (CCND1), and the Degenerative Spermatocyte Homolog 1 (DEGS1) promoter fused to luciferase were performed. HeLa cells were transfected with 1 mg of (DEGS1/luc)/well and increasing concentration of Wt NFATC1 and NFATC1 mutants with or without constitutively activated PPP3CA. The DEGS1 promoter harbors a consensus NFAT SIS-3 site binding site at 2914 bp in addition to multiple GATA binding sites. The results showed that the Wt NFATC1 is a moderate activator of the DEGS1 promoter with a maximum fold increase of 1.7 (Figure 6A). Upon coNFATC1 and Tricuspid AtresiaNFATC1 and Tricuspid AtresiaFigure 7. NFATC1 mutations impair functional interactions with GATA5 and HAND2. A- Wt NFATC1 or NFATC1 Mutants (P66L, I701L, P66L/I701L) were transfected with/without HAND2 and the DEGS1 promoter coupled to luciferase reporter construct in Hela cells. Six hours post transfection, media was changed and cells were harvested for luciferase assay after 36 hours. Relative luciferase activities are represented as fold activation. The data are the mean of three independent experiments done in duplicates +/2 standard deviation. Wt NFATC1 and HAND2 synergistically activate DEGS1 promoter. This synergy was abrogated in all NFATC1 mutants. Significance (p,0.05) was assessed using the one-way Anova test. (* p,0.01, ** p,0.05) B- Wt NFATC1 or NFATC1 Mutants (P66L, I701L, P66L/I701L) were transfected with/without PPP3CA and with/ without GATA5 to assess their combinatorial regulation of the DEGS1 promoter in HeLa cells. Six hours post transfection, media was changed and cells were harvested for luciferase assay after 36 hours. Relative luciferase activities are represented as fold activation. The data are the mean of three independent experiments done in duplicates +/2 standard deviation. Wt NFATC1 cotransfected with GATA5 caused a synergistic activation of 35 fold, while transfection of Wt NFATC1 with PPP3CA and GATA5 caused even a stronger synergy reaching 68 fold. The synergestic activation was maintained in all mutants except for P66L/I701L double mutant where the synergy was totally lost. Significance (p,0.05) was assessed using the oneway Anova test. (* p,0.01, ** p,0.05). doi:10.1371/journal.pone.0049532.gpoint to a dose-dependent genotype-phenotype correlation whereby haploinsufficiency is by itself diseases-causing [31,35,3.D 30 for all mutant proteins as compared to the wild type NFATC1 (Figure 5, B,C).DiscussionCongenital heart diseases are still the leading cause of death in newborns in addition to being the most frequent congenital diseases in humans [6]. The genetic mechanisms underlying such diseases however, are being unraveled slowly in the last decade because of the tremendous work done on understanding the molecular mechanisms governing cardiac development in numerous organisms [34]. These mechanisms include the collaborative interaction between transcription factors and their occupancy of conserved cis regulatory elements on different cardiac-specific promoters. The cloning and functional characterization of the genes encoding these transcription factors have successfully led to the formulation of hypotheses that mutations in these genes could cause heart malformations in humans. More importantly, the available data on genes such as GATA4, NKX2-5 and TBX5 doNFATC1 mutations hampered Calcineurin induced transcriptional activityIn order to assess the impact of the mutations on the regulatory function of NFATC1 protein, transactivation assays using the cyclin D1 (CCND1), and the Degenerative Spermatocyte Homolog 1 (DEGS1) promoter fused to luciferase were performed. HeLa cells were transfected with 1 mg of (DEGS1/luc)/well and increasing concentration of Wt NFATC1 and NFATC1 mutants with or without constitutively activated PPP3CA. The DEGS1 promoter harbors a consensus NFAT binding site at 2914 bp in addition to multiple GATA binding sites. The results showed that the Wt NFATC1 is a moderate activator of the DEGS1 promoter with a maximum fold increase of 1.7 (Figure 6A). Upon coNFATC1 and Tricuspid AtresiaNFATC1 and Tricuspid AtresiaFigure 7. NFATC1 mutations impair functional interactions with GATA5 and HAND2. A- Wt NFATC1 or NFATC1 Mutants (P66L, I701L, P66L/I701L) were transfected with/without HAND2 and the DEGS1 promoter coupled to luciferase reporter construct in Hela cells. Six hours post transfection, media was changed and cells were harvested for luciferase assay after 36 hours. Relative luciferase activities are represented as fold activation. The data are the mean of three independent experiments done in duplicates +/2 standard deviation. Wt NFATC1 and HAND2 synergistically activate DEGS1 promoter. This synergy was abrogated in all NFATC1 mutants. Significance (p,0.05) was assessed using the one-way Anova test. (* p,0.01, ** p,0.05) B- Wt NFATC1 or NFATC1 Mutants (P66L, I701L, P66L/I701L) were transfected with/without PPP3CA and with/ without GATA5 to assess their combinatorial regulation of the DEGS1 promoter in HeLa cells. Six hours post transfection, media was changed and cells were harvested for luciferase assay after 36 hours. Relative luciferase activities are represented as fold activation. The data are the mean of three independent experiments done in duplicates +/2 standard deviation. Wt NFATC1 cotransfected with GATA5 caused a synergistic activation of 35 fold, while transfection of Wt NFATC1 with PPP3CA and GATA5 caused even a stronger synergy reaching 68 fold. The synergestic activation was maintained in all mutants except for P66L/I701L double mutant where the synergy was totally lost. Significance (p,0.05) was assessed using the oneway Anova test. (* p,0.01, ** p,0.05). doi:10.1371/journal.pone.0049532.gpoint to a dose-dependent genotype-phenotype correlation whereby haploinsufficiency is by itself diseases-causing [31,35,3.

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