TFP5-Mediated CDK5 Activity Inhibition Improves Diabetic Nephropathy via NGF/Sirt1 Regulating Axis
Diabetic nephropathy (DN) is one of the leading causes of chronic kidney disease (CKD), during which hyperglycemia is composed of the major force for the deterioration to end-stage renal disease (ESRD). However, the underlying mechanism triggering the effect of hyperglycemia on DN is not very clear...
| Published in: | Frontiers in Cell and Developmental Biology |
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| Main Authors: | , , , , , , , , , , , , |
| Format: | Article |
| Language: | English |
| Published: |
Frontiers Media S.A.
2022-07-01
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| Online Access: | https://www.frontiersin.org/articles/10.3389/fcell.2022.829067/full |
| _version_ | 1851953424204038144 |
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| author | Shi-Lu Cao Shi-Lu Cao Hong-Yan Luo Hong-Yan Luo Yong-Cai Gao Xiao-Mei Lan Xiao-Mei Lan Shun-Yao Liu Shun-Yao Liu Bo Li Bo Li Li Bao Li Bao Jing E. Jing E. Danna Ma Danna Ma Guo-Qing Zhang Li-Rong Yang Xi Bao Xi Bao Ya-Li Zheng Ya-Li Zheng |
| author_facet | Shi-Lu Cao Shi-Lu Cao Hong-Yan Luo Hong-Yan Luo Yong-Cai Gao Xiao-Mei Lan Xiao-Mei Lan Shun-Yao Liu Shun-Yao Liu Bo Li Bo Li Li Bao Li Bao Jing E. Jing E. Danna Ma Danna Ma Guo-Qing Zhang Li-Rong Yang Xi Bao Xi Bao Ya-Li Zheng Ya-Li Zheng |
| author_sort | Shi-Lu Cao |
| collection | DOAJ |
| container_title | Frontiers in Cell and Developmental Biology |
| description | Diabetic nephropathy (DN) is one of the leading causes of chronic kidney disease (CKD), during which hyperglycemia is composed of the major force for the deterioration to end-stage renal disease (ESRD). However, the underlying mechanism triggering the effect of hyperglycemia on DN is not very clear and the clinically available drug for hyperglycemia-induced DN is in need of urgent development. Here, we found that high glucose (HG) increased the activity of cyclin-dependent kinase 5 (CDK5) dependent on P35/25 and which upregulated the oxidative stress and apoptosis of mouse podocytes (MPC-5). TFP5, a 25-amino acid peptide inhibiting CDK5 activity, decreased the secretion of inflammation cytokines in serum and kidney, and effectively protected the kidney function in db/db mouse from hyperglycemia-induced kidney injuries. In addition, TFP5 treatment decreased HG-induced oxidative stress and cell apoptosis in MPC-5 cells and kidney tissue of db/db mouse. The principal component analysis (PCA) of RNA-seq data showed that MPC-5 cell cultured under HG, was well discriminated from that under low glucose (LG) conditions, indicating the profound influence of HG on the properties of podocytes. Furthermore, we found that HG significantly decreased the level of NGF and Sirt1, both of which correlated with CDK5 activity. Furthermore, knockdown of NGF was correlated with the decreased expression of Sirt1 while NGF overexpression leads to upregulated Sirt1 and decreased oxidative stress and apoptosis in MPC-5 cells, indicating the positive regulation between NGF and Sirt1 in podocytes. Finally, we found that K252a, an inhibitor of NGF treatment could undermine the protective role of TFP5 on hyperglycemia-induced DN in db/db mouse model. In conclusion, the CDK5-NGF/Sirt1 regulating axis may be the novel pathway to prevent DN progression and TFP5 may be a promising compound to improved hyperglycemia induced DN. |
| format | Article |
| id | doaj-art-9bfdd29739d14037bfd9cb2d38c2ea46 |
| institution | Directory of Open Access Journals |
| issn | 2296-634X |
| language | English |
| publishDate | 2022-07-01 |
| publisher | Frontiers Media S.A. |
| record_format | Article |
| spelling | doaj-art-9bfdd29739d14037bfd9cb2d38c2ea462025-08-19T21:45:44ZengFrontiers Media S.A.Frontiers in Cell and Developmental Biology2296-634X2022-07-011010.3389/fcell.2022.829067829067TFP5-Mediated CDK5 Activity Inhibition Improves Diabetic Nephropathy via NGF/Sirt1 Regulating AxisShi-Lu Cao0Shi-Lu Cao1Hong-Yan Luo2Hong-Yan Luo3Yong-Cai Gao4Xiao-Mei Lan5Xiao-Mei Lan6Shun-Yao Liu7Shun-Yao Liu8Bo Li9Bo Li10Li Bao11Li Bao12Jing E.13Jing E.14Danna Ma15Danna Ma16Guo-Qing Zhang17Li-Rong Yang18Xi Bao19Xi Bao20Ya-Li Zheng21Ya-Li Zheng22Department of Nephrology, Ningxia Medical University Affiliated People’s Hospital of Autonomous Region of Yinchuan, Yinchuan, ChinaThe Third Clinical Medical College of Ningxia Medical University, Yinchuan, ChinaDepartment of Nephrology, Ningxia Medical University Affiliated People’s Hospital of Autonomous Region of Yinchuan, Yinchuan, ChinaThe Third Clinical Medical College of Ningxia Medical University, Yinchuan, ChinaDepartment of Nephrology, Ningxia Medical University Affiliated People’s Hospital of Autonomous Region of Yinchuan, Yinchuan, ChinaDepartment of Geriatrics, Ningxia Medical University Affiliated People’s Hospital of Autonomous Region of Yinchuan, Yinchuan, ChinaDialysis Department of Nephrology Hospital, The First Affiliated Hospital of Xi’an Jiaotong University, Xi’an, ChinaDepartment of Nephrology, Ningxia Medical University Affiliated People’s Hospital of Autonomous Region of Yinchuan, Yinchuan, ChinaThe Third Clinical Medical College of Ningxia Medical University, Yinchuan, ChinaDepartment of Nephrology, Ningxia Medical University Affiliated People’s Hospital of Autonomous Region of Yinchuan, Yinchuan, ChinaDialysis Department of Nephrology Hospital, The First Affiliated Hospital of Xi’an Jiaotong University, Xi’an, ChinaDepartment of Nephrology, Ningxia Medical University Affiliated People’s Hospital of Autonomous Region of Yinchuan, Yinchuan, ChinaThe Third Clinical Medical College of Ningxia Medical University, Yinchuan, ChinaDepartment of Nephrology, Ningxia Medical University Affiliated People’s Hospital of Autonomous Region of Yinchuan, Yinchuan, ChinaDepartment of Nephrology, The Second Affiliated Hospital of Xi’an Jiaotong University, Xi’an, ChinaDepartment of Nephrology, Ningxia Medical University Affiliated People’s Hospital of Autonomous Region of Yinchuan, Yinchuan, ChinaDepartment of Nephrology, The Second Affiliated Hospital of Xi’an Jiaotong University, Xi’an, ChinaDepartment of Nephrology, Ningxia Medical University Affiliated People’s Hospital of Autonomous Region of Yinchuan, Yinchuan, ChinaDepartment of Nephrology, Ningxia Medical University Affiliated People’s Hospital of Autonomous Region of Yinchuan, Yinchuan, ChinaDepartment of Nephrology, Ningxia Medical University Affiliated People’s Hospital of Autonomous Region of Yinchuan, Yinchuan, ChinaThe Third Clinical Medical College of Ningxia Medical University, Yinchuan, ChinaDepartment of Nephrology, Ningxia Medical University Affiliated People’s Hospital of Autonomous Region of Yinchuan, Yinchuan, ChinaThe Third Clinical Medical College of Ningxia Medical University, Yinchuan, ChinaDiabetic nephropathy (DN) is one of the leading causes of chronic kidney disease (CKD), during which hyperglycemia is composed of the major force for the deterioration to end-stage renal disease (ESRD). However, the underlying mechanism triggering the effect of hyperglycemia on DN is not very clear and the clinically available drug for hyperglycemia-induced DN is in need of urgent development. Here, we found that high glucose (HG) increased the activity of cyclin-dependent kinase 5 (CDK5) dependent on P35/25 and which upregulated the oxidative stress and apoptosis of mouse podocytes (MPC-5). TFP5, a 25-amino acid peptide inhibiting CDK5 activity, decreased the secretion of inflammation cytokines in serum and kidney, and effectively protected the kidney function in db/db mouse from hyperglycemia-induced kidney injuries. In addition, TFP5 treatment decreased HG-induced oxidative stress and cell apoptosis in MPC-5 cells and kidney tissue of db/db mouse. The principal component analysis (PCA) of RNA-seq data showed that MPC-5 cell cultured under HG, was well discriminated from that under low glucose (LG) conditions, indicating the profound influence of HG on the properties of podocytes. Furthermore, we found that HG significantly decreased the level of NGF and Sirt1, both of which correlated with CDK5 activity. Furthermore, knockdown of NGF was correlated with the decreased expression of Sirt1 while NGF overexpression leads to upregulated Sirt1 and decreased oxidative stress and apoptosis in MPC-5 cells, indicating the positive regulation between NGF and Sirt1 in podocytes. Finally, we found that K252a, an inhibitor of NGF treatment could undermine the protective role of TFP5 on hyperglycemia-induced DN in db/db mouse model. In conclusion, the CDK5-NGF/Sirt1 regulating axis may be the novel pathway to prevent DN progression and TFP5 may be a promising compound to improved hyperglycemia induced DN.https://www.frontiersin.org/articles/10.3389/fcell.2022.829067/fullTFP5diabetic nephropathyCDK5NGFSirt1 |
| spellingShingle | Shi-Lu Cao Shi-Lu Cao Hong-Yan Luo Hong-Yan Luo Yong-Cai Gao Xiao-Mei Lan Xiao-Mei Lan Shun-Yao Liu Shun-Yao Liu Bo Li Bo Li Li Bao Li Bao Jing E. Jing E. Danna Ma Danna Ma Guo-Qing Zhang Li-Rong Yang Xi Bao Xi Bao Ya-Li Zheng Ya-Li Zheng TFP5-Mediated CDK5 Activity Inhibition Improves Diabetic Nephropathy via NGF/Sirt1 Regulating Axis TFP5 diabetic nephropathy CDK5 NGF Sirt1 |
| title | TFP5-Mediated CDK5 Activity Inhibition Improves Diabetic Nephropathy via NGF/Sirt1 Regulating Axis |
| title_full | TFP5-Mediated CDK5 Activity Inhibition Improves Diabetic Nephropathy via NGF/Sirt1 Regulating Axis |
| title_fullStr | TFP5-Mediated CDK5 Activity Inhibition Improves Diabetic Nephropathy via NGF/Sirt1 Regulating Axis |
| title_full_unstemmed | TFP5-Mediated CDK5 Activity Inhibition Improves Diabetic Nephropathy via NGF/Sirt1 Regulating Axis |
| title_short | TFP5-Mediated CDK5 Activity Inhibition Improves Diabetic Nephropathy via NGF/Sirt1 Regulating Axis |
| title_sort | tfp5 mediated cdk5 activity inhibition improves diabetic nephropathy via ngf sirt1 regulating axis |
| topic | TFP5 diabetic nephropathy CDK5 NGF Sirt1 |
| url | https://www.frontiersin.org/articles/10.3389/fcell.2022.829067/full |
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