Causal inference in medical records and complementary systems pharmacology for metformin drug repurposing towards dementia

Marie Laure Charpignon; Bella Vakulenko-Lagun; Bang Zheng; Colin Magdamo; Bowen Su; Kyle Evans; Steve Rodriguez; Artem Sokolov; Sarah Boswell; Yi Han Sheu; Melek Somai; Lefkos Middleton; Bradley T. Hyman; Rebecca A. Betensky; Stan N. Finkelstein; Roy E. Welsch; Ioanna Tzoulaki; Deborah Blacker; Sudeshna Das; Mark W. Albers

doi:10.1038/s41467-022-35157-w

Causal inference in medical records and complementary systems pharmacology for metformin drug repurposing towards dementia

Marie Laure Charpignon, Bella Vakulenko-Lagun, Bang Zheng, Colin Magdamo, Bowen Su, Kyle Evans, Steve Rodriguez, Artem Sokolov, Sarah Boswell, Yi Han Sheu, Melek Somai, Lefkos Middleton, Bradley T. Hyman, Rebecca A. Betensky, Stan N. Finkelstein, Roy E. Welsch, Ioanna Tzoulaki, Deborah Blacker, Sudeshna Das, Mark W. Albers

Department of Statistics

University of Haifa

Research output: Contribution to journal › Article › peer-review

Abstract

Metformin, a diabetes drug with anti-aging cellular responses, has complex actions that may alter dementia onset. Mixed results are emerging from prior observational studies. To address this complexity, we deploy a causal inference approach accounting for the competing risk of death in emulated clinical trials using two distinct electronic health record systems. In intention-to-treat analyses, metformin use associates with lower hazard of all-cause mortality and lower cause-specific hazard of dementia onset, after accounting for prolonged survival, relative to sulfonylureas. In parallel systems pharmacology studies, the expression of two AD-related proteins, APOE and SPP1, was suppressed by pharmacologic concentrations of metformin in differentiated human neural cells, relative to a sulfonylurea. Together, our findings suggest that metformin might reduce the risk of dementia in diabetes patients through mechanisms beyond glycemic control, and that SPP1 is a candidate biomarker for metformin’s action in the brain.

Original language	American English
Article number	7652
Journal	Nature Communications
Volume	13
Issue number	1
DOIs	https://doi.org/10.1038/s41467-022-35157-w
State	Published - 10 Dec 2022

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 3 Good Health and Well-being

All Science Journal Classification (ASJC) codes

General Chemistry
General Biochemistry,Genetics and Molecular Biology
General Physics and Astronomy

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10.1038/s41467-022-35157-w

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Charpignon, M. L., Vakulenko-Lagun, B., Zheng, B., Magdamo, C., Su, B., Evans, K., Rodriguez, S., Sokolov, A., Boswell, S., Sheu, Y. H., Somai, M., Middleton, L., Hyman, B. T., Betensky, R. A., Finkelstein, S. N., Welsch, R. E., Tzoulaki, I., Blacker, D., Das, S., & Albers, M. W. (2022). Causal inference in medical records and complementary systems pharmacology for metformin drug repurposing towards dementia. Nature Communications, 13(1), Article 7652. https://doi.org/10.1038/s41467-022-35157-w

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abstract = "Metformin, a diabetes drug with anti-aging cellular responses, has complex actions that may alter dementia onset. Mixed results are emerging from prior observational studies. To address this complexity, we deploy a causal inference approach accounting for the competing risk of death in emulated clinical trials using two distinct electronic health record systems. In intention-to-treat analyses, metformin use associates with lower hazard of all-cause mortality and lower cause-specific hazard of dementia onset, after accounting for prolonged survival, relative to sulfonylureas. In parallel systems pharmacology studies, the expression of two AD-related proteins, APOE and SPP1, was suppressed by pharmacologic concentrations of metformin in differentiated human neural cells, relative to a sulfonylurea. Together, our findings suggest that metformin might reduce the risk of dementia in diabetes patients through mechanisms beyond glycemic control, and that SPP1 is a candidate biomarker for metformin{\textquoteright}s action in the brain.",

author = "Charpignon, \{Marie Laure\} and Bella Vakulenko-Lagun and Bang Zheng and Colin Magdamo and Bowen Su and Kyle Evans and Steve Rodriguez and Artem Sokolov and Sarah Boswell and Sheu, \{Yi Han\} and Melek Somai and Lefkos Middleton and Hyman, \{Bradley T.\} and Betensky, \{Rebecca A.\} and Finkelstein, \{Stan N.\} and Welsch, \{Roy E.\} and Ioanna Tzoulaki and Deborah Blacker and Sudeshna Das and Albers, \{Mark W.\}",

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Charpignon, ML, Vakulenko-Lagun, B, Zheng, B, Magdamo, C, Su, B, Evans, K, Rodriguez, S, Sokolov, A, Boswell, S, Sheu, YH, Somai, M, Middleton, L, Hyman, BT, Betensky, RA, Finkelstein, SN, Welsch, RE, Tzoulaki, I, Blacker, D, Das, S & Albers, MW 2022, 'Causal inference in medical records and complementary systems pharmacology for metformin drug repurposing towards dementia', Nature Communications, vol. 13, no. 1, 7652. https://doi.org/10.1038/s41467-022-35157-w

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AU - Evans, Kyle

AU - Rodriguez, Steve

AU - Sokolov, Artem

AU - Boswell, Sarah

AU - Sheu, Yi Han

AU - Somai, Melek

AU - Middleton, Lefkos

AU - Hyman, Bradley T.

AU - Betensky, Rebecca A.

AU - Finkelstein, Stan N.

AU - Welsch, Roy E.

AU - Tzoulaki, Ioanna

AU - Blacker, Deborah

AU - Das, Sudeshna

AU - Albers, Mark W.

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Causal inference in medical records and complementary systems pharmacology for metformin drug repurposing towards dementia

Abstract

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