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Item Author Correction: REST regulates the cell cycle for cardiac development and regeneration(Springer Nature, 2018-01-12) Zhang, Donghong; Wang, Yidong; Lu, Pengfei; Wang, Ping; Yuan, Xinchun; Yan, Jianyun; Cai, Chenleng; Chang, Ching-Pin; Zheng, Deyou; Wu, Bingruo; Zhou, Bin; Medicine, School of MedicineDespite the importance of cardiomyocyte proliferation in cardiac development and regeneration, the mechanisms that promote cardiomyocyte cell cycle remain incompletely understood. RE1 silencing transcription factor (REST) is a transcriptional repressor of neuronal genes. Here we show that REST also regulates the cardiomyocyte cell cycle. REST binds and represses the cell cycle inhibitor gene p21 and is required for mouse cardiac development and regeneration. Rest deletion de-represses p21 and inhibits the cardiomyocyte cell cycle and proliferation in embryonic or regenerating hearts. By contrast, REST overexpression in cultured cardiomyocytes represses p21 and increases proliferation. We further show that p21 knockout rescues cardiomyocyte cell cycle and proliferation defects resulting from Rest deletion. Our study reveals a REST-p21 regulatory axis as a mechanism for cell cycle progression in cardiomyocytes, which might be exploited therapeutically to enhance cardiac regeneration.Item Correlation of time trends of air pollutants, greenspaces and tracheal, bronchus and lung cancer incidence and mortality among the adults in United States(Frontiers Media, 2024-07-25) Zhao, Jia; Ren, Ruihang; Beeraka, Narasimha M.; PA, Mahesh; Xue, Nannan; Lu, Pengfei; Bai, Wenhua; Mao, Zhihan; Vikram PR, Hemanth; Bulygin, Kirill V.; Nikolenko, Vladimir N.; Fan, Ruitai; Liu, Junqi; Pediatrics, School of MedicineBackground: Tracheal, Bronchus, and Lung (TBL) cancer continues to represent the majority of cancer-related incidence and mortality in United States (U.S.). While air pollutants are considered essential risk factors, both global and national average concentrations of major harmful air pollutants have significantly decreased over the decades. Green space may have a beneficial effect on human health. Methods: We obtained data on national and state-level burden of TBL cancer, the annual average concentration of main air pollutants, and levels of green spaces in 2007, 2013, and 2019. According to generalized estimating equation (GEE), we examine the associations among incidence and mortality of TBL cancer, air pollutants, and greenspaces, represented by the Normalized Difference Vegetation Index (NDVI) in different age groups with models adjusted with meteorological, and socio-demographic. We observed additional effects of the interaction between the NDVI, Ozone, PM2.5, and other factors, which helped us to interpret and understand our results. Also, we collated states that witnessed net increments in forest coverage and conducted the same analysis separately. Results: In our analysis, the majority of associations between NDVI and air pollutants with TBL cancer remained significantly positive, particularly noticeable among individuals aged 20 to 54. However, our findings did not explore air pollution as a potential mediator between greenspace exposure and TBL cancer. While the associations of PM2.5 with TBL cancer remained positive, the other four pollutants showed positive but statistically insignificant associations. Our interaction analysis yielded that there were positive associations between NDVI and ozone, PM2.5, and tobacco use. Max NDVI acts as a protective factor along with high HDI. Additionally, PM2.5 and HDI also showed a negative association. In 18 states with more forest, NDVI acts as a protective factor along with higher health care coverage, better health status, and participation in physical activities. Conclusion: In the state-level of U.S., the effects of total greenspace with TBL cancer are mixed and could be modified by various socio-economic factors. PM2.5 has a direct correlation with TBL cancer and the effects can be influenced by underlying socioeconomic conditions.Item REST regulates the cell cycle for cardiac development and regeneration(Nature Publishing group, 2017-12-07) Zhang, Donghong; Wang, Yidong; Lu, Pengfei; Wang, Ping; Yuan, Xinchun; Yan, Jianyun; Cai, Chenleng; Chang, Ching-Pin; Zheng, Deyou; Wu, Bingruo; Zhou, Bin; Medicine, School of MedicineDespite the importance of cardiomyocyte proliferation in cardiac development and regeneration, the mechanisms that promote cardiomyocyte cell cycle remain incompletely understood. RE1 silencing transcription factor (REST) is a transcriptional repressor of neuronal genes. Here we show that REST also regulates the cardiomyocyte cell cycle. REST binds and represses the cell cycle inhibitor gene p21 and is required for mouse cardiac development and regeneration. Rest deletion de-represses p21 and inhibits the cardiomyocyte cell cycle and proliferation in embryonic or regenerating hearts. By contrast, REST overexpression in cultured cardiomyocytes represses p21 and increases proliferation. We further show that p21 knockout rescues cardiomyocyte cell cycle and proliferation defects resulting from Rest deletion. Our study reveals a REST-p21 regulatory axis as a mechanism for cell cycle progression in cardiomyocytes, which might be exploited therapeutically to enhance cardiac regeneration., The mechanisms regulating cardiomyocyte proliferation during development and cardiac regeneration are incompletely understood. The authors show that the transcription factor REST regulates cardiomyocyte proliferation by binding and repressing the cell cycle inhibitor p21.Item Retraction Note: REST regulates the cell cycle for cardiac development and regeneration(Springer Nature, 2024-02-22) Zhang, Donghong; Wang, Yidong; Lu, Pengfei; Wang, Ping; Yuan, Xinchun; Yan, Jianyun; Cai, Chenleng; Chang, Ching-Pin; Zheng, Deyou; Wu, Bingruo; Zhou, Bin; Medicine, School of MedicineRetraction to: Nature Communications 10.1038/s41467-017-02210-y, published online 07 December 2017 The authors have retracted this article because of significant concerns regarding a number of figures presented in this work that question the integrity of the data. After publication, several concerns were raised about the figures in this article. Specifically, * There appears to be a partial overlap between two panels of Figure 4e (bottom left corner for p21KO and top right for DKO). * There appears to be an overlap between a control panel from figure 2k and Rest imKO in Figure 5g (PH3 staining). * There appears to be image reuse between two samples in Figure 5g in the Aurora B staining row for Rest imKO and p21KO. * There appears to be an overlap between Figure 6f Ph3 staining for the Rest cDNA sample and Supplementary Fig. 6e, EdU staining, Rest cDNA, with fewer arrows and less visible DAPI staining. All authors agree with this retraction.