Endogenous adenine mediates kidney injury in diabetic models and predicts diabetic kidney disease in patients

Endogenous adenine mediates kidney injury in diabetic models and predicts diabetic kidney disease in patients

Diabetic kidney disease (DKD) can lead to end-stage kidney disease (ESKD) and mortality; however, few mechanistic biomarkers are available for high-risk patients, especially those without macroalbuminuria. Urine from participants with diabetes from the Chronic Renal Insufficiency Cohort (CRIC) study...

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Main Authors: Sharma, Kumar, Zhang, Guanshi, Hansen, Jens, Bjornstad, Petter, Lee, Hak Joo, Menon, Rajasree, Hejazi, Leila, Liu, Jian-Jun, Franzone, Anthony, Looker, Helen C., Choi, Byeong Yeob, Fernandez, Roman, Venkatachalam, Manjeri A., Kugathasan, Luxcia, Sridhar, Vikas S., Natarajan, Loki, Zhang, Jing, Sharma, Varun S., Kwan, Brian, Waikar, Sushrut S., Himmelfarb, Jonathan, Tuttle, Katherine R., Kestenbaum, Bryan, Fuhrer, Tobias, Feldman, Harold I., de Boer, Ian H., Tucci, Fabio C., Sedor, John, Heerspink, Hiddo Lambers, Schaub, Jennifer, Otto, Edgar A., Hodgin, Jeffrey B., Kretzler, Matthias, Anderton, Christopher R., Alexandrov, Theodore, Cherney, David, Lim, Su Chi, Nelson, Robert G., Gelfond, Jonathan, Iyengar, Ravi
Other Authors: Lee Kong Chian School of Medicine (LKCMedicine)
Format: Article
Language:English
Published: 2024
Subjects:
Medicine, Health and Life Sciences
Chronic kidney disease
Diabetes
Online Access:https://hdl.handle.net/10356/173927
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Institution: Nanyang Technological University
Language: English
id sg-ntu-dr.10356-173927
record_format dspace
institution Nanyang Technological University
building NTU Library
continent Asia
country Singapore
Singapore
content_provider NTU Library
collection DR-NTU
language English
topic Medicine, Health and Life Sciences
Chronic kidney disease
Diabetes
spellingShingle Medicine, Health and Life Sciences
Chronic kidney disease
Diabetes
Sharma, Kumar
Zhang, Guanshi
Hansen, Jens
Bjornstad, Petter
Lee, Hak Joo
Menon, Rajasree
Hejazi, Leila
Liu, Jian-Jun
Franzone, Anthony
Looker, Helen C.
Choi, Byeong Yeob
Fernandez, Roman
Venkatachalam, Manjeri A.
Kugathasan, Luxcia
Sridhar, Vikas S.
Natarajan, Loki
Zhang, Jing
Sharma, Varun S.
Kwan, Brian
Waikar, Sushrut S.
Himmelfarb, Jonathan
Tuttle, Katherine R.
Kestenbaum, Bryan
Fuhrer, Tobias
Feldman, Harold I.
de Boer, Ian H.
Tucci, Fabio C.
Sedor, John
Heerspink, Hiddo Lambers
Schaub, Jennifer
Otto, Edgar A.
Hodgin, Jeffrey B.
Kretzler, Matthias
Anderton, Christopher R.
Alexandrov, Theodore
Cherney, David
Lim, Su Chi
Nelson, Robert G.
Gelfond, Jonathan
Iyengar, Ravi
Endogenous adenine mediates kidney injury in diabetic models and predicts diabetic kidney disease in patients
description Diabetic kidney disease (DKD) can lead to end-stage kidney disease (ESKD) and mortality; however, few mechanistic biomarkers are available for high-risk patients, especially those without macroalbuminuria. Urine from participants with diabetes from the Chronic Renal Insufficiency Cohort (CRIC) study, the Singapore Study of Macro-angiopathy and Micro-vascular Reactivity in Type 2 Diabetes (SMART2D), and the American Indian Study determined whether urine adenine/creatinine ratio (UAdCR) could be a mechanistic biomarker for ESKD. ESKD and mortality were associated with the highest UAdCR tertile in the CRIC study and SMART2D. ESKD was associated with the highest UAdCR tertile in patients without macroalbuminuria in the CRIC study, SMART2D, and the American Indian study. Empagliflozin lowered UAdCR in nonmacroalbuminuric participants. Spatial metabolomics localized adenine to kidney pathology, and single-cell transcriptomics identified ribonucleoprotein biogenesis as a top pathway in proximal tubules of patients without macroalbuminuria, implicating mTOR. Adenine stimulated matrix in tubular cells via mTOR and stimulated mTOR in mouse kidneys. A specific inhibitor of adenine production was found to reduce kidney hypertrophy and kidney injury in diabetic mice. We propose that endogenous adenine may be a causative factor in DKD.
author2 Lee Kong Chian School of Medicine (LKCMedicine)
author_facet Lee Kong Chian School of Medicine (LKCMedicine)
Sharma, Kumar
Zhang, Guanshi
Hansen, Jens
Bjornstad, Petter
Lee, Hak Joo
Menon, Rajasree
Hejazi, Leila
Liu, Jian-Jun
Franzone, Anthony
Looker, Helen C.
Choi, Byeong Yeob
Fernandez, Roman
Venkatachalam, Manjeri A.
Kugathasan, Luxcia
Sridhar, Vikas S.
Natarajan, Loki
Zhang, Jing
Sharma, Varun S.
Kwan, Brian
Waikar, Sushrut S.
Himmelfarb, Jonathan
Tuttle, Katherine R.
Kestenbaum, Bryan
Fuhrer, Tobias
Feldman, Harold I.
de Boer, Ian H.
Tucci, Fabio C.
Sedor, John
Heerspink, Hiddo Lambers
Schaub, Jennifer
Otto, Edgar A.
Hodgin, Jeffrey B.
Kretzler, Matthias
Anderton, Christopher R.
Alexandrov, Theodore
Cherney, David
Lim, Su Chi
Nelson, Robert G.
Gelfond, Jonathan
Iyengar, Ravi
format Article
author Sharma, Kumar
Zhang, Guanshi
Hansen, Jens
Bjornstad, Petter
Lee, Hak Joo
Menon, Rajasree
Hejazi, Leila
Liu, Jian-Jun
Franzone, Anthony
Looker, Helen C.
Choi, Byeong Yeob
Fernandez, Roman
Venkatachalam, Manjeri A.
Kugathasan, Luxcia
Sridhar, Vikas S.
Natarajan, Loki
Zhang, Jing
Sharma, Varun S.
Kwan, Brian
Waikar, Sushrut S.
Himmelfarb, Jonathan
Tuttle, Katherine R.
Kestenbaum, Bryan
Fuhrer, Tobias
Feldman, Harold I.
de Boer, Ian H.
Tucci, Fabio C.
Sedor, John
Heerspink, Hiddo Lambers
Schaub, Jennifer
Otto, Edgar A.
Hodgin, Jeffrey B.
Kretzler, Matthias
Anderton, Christopher R.
Alexandrov, Theodore
Cherney, David
Lim, Su Chi
Nelson, Robert G.
Gelfond, Jonathan
Iyengar, Ravi
author_sort Sharma, Kumar
title Endogenous adenine mediates kidney injury in diabetic models and predicts diabetic kidney disease in patients
title_short Endogenous adenine mediates kidney injury in diabetic models and predicts diabetic kidney disease in patients
title_full Endogenous adenine mediates kidney injury in diabetic models and predicts diabetic kidney disease in patients
title_fullStr Endogenous adenine mediates kidney injury in diabetic models and predicts diabetic kidney disease in patients
title_full_unstemmed Endogenous adenine mediates kidney injury in diabetic models and predicts diabetic kidney disease in patients
title_sort endogenous adenine mediates kidney injury in diabetic models and predicts diabetic kidney disease in patients
publishDate 2024
url https://hdl.handle.net/10356/173927
_version_ 1794549381135859712
spelling sg-ntu-dr.10356-1739272024-03-10T15:37:49Z Endogenous adenine mediates kidney injury in diabetic models and predicts diabetic kidney disease in patients Sharma, Kumar Zhang, Guanshi Hansen, Jens Bjornstad, Petter Lee, Hak Joo Menon, Rajasree Hejazi, Leila Liu, Jian-Jun Franzone, Anthony Looker, Helen C. Choi, Byeong Yeob Fernandez, Roman Venkatachalam, Manjeri A. Kugathasan, Luxcia Sridhar, Vikas S. Natarajan, Loki Zhang, Jing Sharma, Varun S. Kwan, Brian Waikar, Sushrut S. Himmelfarb, Jonathan Tuttle, Katherine R. Kestenbaum, Bryan Fuhrer, Tobias Feldman, Harold I. de Boer, Ian H. Tucci, Fabio C. Sedor, John Heerspink, Hiddo Lambers Schaub, Jennifer Otto, Edgar A. Hodgin, Jeffrey B. Kretzler, Matthias Anderton, Christopher R. Alexandrov, Theodore Cherney, David Lim, Su Chi Nelson, Robert G. Gelfond, Jonathan Iyengar, Ravi Lee Kong Chian School of Medicine (LKCMedicine) Khoo Teck Puat Hospital Saw Swee Hock School of Public Health, NUS Medicine, Health and Life Sciences Chronic kidney disease Diabetes Diabetic kidney disease (DKD) can lead to end-stage kidney disease (ESKD) and mortality; however, few mechanistic biomarkers are available for high-risk patients, especially those without macroalbuminuria. Urine from participants with diabetes from the Chronic Renal Insufficiency Cohort (CRIC) study, the Singapore Study of Macro-angiopathy and Micro-vascular Reactivity in Type 2 Diabetes (SMART2D), and the American Indian Study determined whether urine adenine/creatinine ratio (UAdCR) could be a mechanistic biomarker for ESKD. ESKD and mortality were associated with the highest UAdCR tertile in the CRIC study and SMART2D. ESKD was associated with the highest UAdCR tertile in patients without macroalbuminuria in the CRIC study, SMART2D, and the American Indian study. Empagliflozin lowered UAdCR in nonmacroalbuminuric participants. Spatial metabolomics localized adenine to kidney pathology, and single-cell transcriptomics identified ribonucleoprotein biogenesis as a top pathway in proximal tubules of patients without macroalbuminuria, implicating mTOR. Adenine stimulated matrix in tubular cells via mTOR and stimulated mTOR in mouse kidneys. A specific inhibitor of adenine production was found to reduce kidney hypertrophy and kidney injury in diabetic mice. We propose that endogenous adenine may be a causative factor in DKD. National Medical Research Council (NMRC) Published version GZ, LH, HJL, AF, and KS received salary and research support from the NIH (UH3DK114920, 5U2CDK114886, RO1DK110541, VA Merit, UO1DK114920). LN, JZ, and B Kwan were supported by National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK; 5R01DK110541). JJL received research support from Alexandra Health Fund (STAR grant 18203 and 20201). SCL received research support from Singapore National Medical Research Councile (MOH-000066, 0000714, and OFLCG/001/2017). PB received salary and research support from the NIDDK (R01 DK129211, R21 DK129720, K23 DK116720, UC DK114886, and P30 DK116073), JDRF (2-SRA-2019-845-S-B, 3-SRA-2017-424-M-B, and 3-SRA-2022-1097-M-B), Boettcher Foundation, American Heart Association (20IPA35260142), Ludeman Family Center for Women’s Health Research at the University of Colorado, and the Department of Pediatrics, Section of Endocrinology, and Barbara Davis Center for Diabetes at University of Colorado School of Medicine. KRT receives salary and research support from the NIDDK; National Institute on Minority Health and Health Disparities; National Center for Advancing Translational Sciences; National Heart, Lung, and Blood Institute (R01MD014712, U2CDK114886, UL1TR002319, U54DK083912, U01DK100846, OT2HL161847, and UM1AI109568); and the Centers for Disease Control and Prevention (75D301-21-P-12254). RGN was supported by the American Diabetes Association (Clinical Science Award 1-08-CR-42), and RGN and HCL were supported by the Intramural Research Program of the NIDDK. J Hansen and RI received salary support from the NIH (U3CDK114886, R01GM137056, P01HL134605). Funding for the CRIC study was obtained under a cooperative agreement from the NIDDK (U01DK060990, U01DK060984, U01DK061022, U01DK061021, U01DK061028, U01DK060980, U01DK060963, U01DK060902, and U24DK060990). In addition, this work was supported in part by the Perelman School of Medicine at the University of Pennsylvania Clinical and Translational Science Award; NIH/National Center for Advancing Translational Sciences (UL1TR000003); Johns Hopkins University (UL1 TR-000424); University of Maryland (GCRC M01 RR-16500); Clinical and Translational Science Collaborative of Cleveland; the National Center for Advancing Translational Sciences (UL1TR000439) component of the NIH and the NIH Roadmap for Medical Research; Michigan Institute for Clinical and Health Research (UL1TR000433); University of Illinois at Chicago (CTSA UL1RR029879); Tulane COBRE for Clinical and Translational Research in Cardiometabolic Diseases (P20 GM109036); Kaiser Permanente NIH/National Center for Research Resources, University of California, San Francisco CTSI (UL1 RR-024131); and Department of Internal Medicine, University of New Mexico School of Medicine Albuquerque (NM R01DK119199). DC has received operational funding for clinical trials from Boehringer Ingelheim–Lilly, Merck, Janssen, Sanofi, AstraZeneca, and Novo Nordisk. The KPMP is funded by the following grants from the NIDDK: U01DK133081, U01DK133091, U01DK133092, U01DK133093, U01DK133095, U01DK133097, U01DK114866, U01DK114908, U01DK133090, U01DK133113, U01DK133766, U01DK133768, U01DK114907, U01DK114920, U01DK114923, U01DK114933, and U24DK114886. Please see Supplemental Acknowledgments for KPMP consortium details. 2024-03-06T07:38:53Z 2024-03-06T07:38:53Z 2023 Journal Article Sharma, K., Zhang, G., Hansen, J., Bjornstad, P., Lee, H. J., Menon, R., Hejazi, L., Liu, J., Franzone, A., Looker, H. C., Choi, B. Y., Fernandez, R., Venkatachalam, M. A., Kugathasan, L., Sridhar, V. S., Natarajan, L., Zhang, J., Sharma, V. S., Kwan, B., ...Iyengar, R. (2023). Endogenous adenine mediates kidney injury in diabetic models and predicts diabetic kidney disease in patients. Journal of Clinical Investigation, 133(20). https://dx.doi.org/10.1172/JCI170341 0021-9738 https://hdl.handle.net/10356/173927 10.1172/JCI170341 37616058 2-s2.0-85174642552 20 133 en MOH-000066 MOH-0000714 OFLCG/001/2017 Journal of Clinical Investigation © 2023 Sharma et al. This is an open access article published under the terms of the Creative Commons Attribution 4.0 International License. application/pdf

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