Proteomic signatures of pediatric cardiovascular and cardiometabolic traits demonstrate long-term modifiable drivers of adult disease

Joshua M Landman; Heather M Highland; Andrew S Perry; Annie G Howard; Quanhu Sheng; Anna Lorenz; Alexandra B Palmer; Shilin Zhao; Wanying Zhu; Xinruo Zhang; Victoria L Buchanan; Elizabeth G Frankel; Rashedeh Roshani; Alyssa Scartozzi; Eric H Farber-Eger; Mohammad Y Anwar; Jessica K Sprinkles; Ash Breidenbach; Ting-Chen Wang; Christine A Ballard; Matthew Nayor; Jaclyn Tamaroff; Absalon Gutierrez; Lauren E Petty; Alexander S Petty; Benjamin Lippi; Lindsay Fernandez-Rhodes; Hung-Hsin Chen; Mohanraj Krishnan; Mariaelisa Graff; Katie A Meyer; Miryoung Lee; Kristin L Young; Quinn Wells; Jane E Freedman; Eric R Gamazon; Joseph B McCormick; Susan P Fisher-Hoch; Penny Gordon-Larsen; Jennifer E Below; Kari E North; Ravi V Shah

doi:10.1101/2025.10.27.25338754

Proteomic signatures of pediatric cardiovascular and cardiometabolic traits demonstrate long-term modifiable drivers of adult disease

Joshua M Landman
, Heather M Highland
, Andrew S Perry
, Annie G Howard
, Quanhu Sheng
, Anna Lorenz
, Alexandra B Palmer
, Shilin Zhao
, Wanying Zhu
, Xinruo Zhang
, Victoria L Buchanan
, Elizabeth G Frankel
, Rashedeh Roshani
, Alyssa Scartozzi
, Eric H Farber-Eger
, Mohammad Y Anwar
, Jessica K Sprinkles
, Ash Breidenbach
, Ting-Chen Wang
, Christine A Ballard

Matthew Nayor, Jaclyn Tamaroff, Absalon Gutierrez, Lauren E Petty, Alexander S Petty, Benjamin Lippi, Lindsay Fernandez-Rhodes, Hung-Hsin Chen, Mohanraj Krishnan, Mariaelisa Graff, Katie A Meyer, Miryoung Lee, Kristin L Young, Quinn Wells, Jane E Freedman, Eric R Gamazon, Joseph B McCormick, Susan P Fisher-Hoch, Penny Gordon-Larsen, Jennifer E Below, Kari E North, Ravi V Shah

Research output: Contribution to journal › Article

Abstract

While the earliest pathological signs of cardiovascular disease (CVD) emerge before age 20, current adult-based risk thresholds fail to identify a substantial fraction of high-risk children. With the rising prevalence of childhood obesity, the need for early and sensitive detection of cardiovascular-kidney-metabolic disease (CKMD) risk is paramount to enable timely intervention that can prevent the trajectory toward CVD in later life. To identify early accessible molecular biomarkers of CKMD in children, we measured 25 CKMD phenotypes, spanning liver, adipose, vascular, and dysglycemia traits, linked those to the circulating proteome and built a multi-protein signature of composite CKMD, leveraging data from 273 children and adolescents (13.1 ± 2.7 years; 53% females). We compared these results to the adult CKMD proteome, using data from 685 adults from the same community and 28,257 adults from the UK Biobank. The pediatric CKMD proteome was highly concordant with the adult CKMD proteome, reflecting known and novel mechanisms of pancreatic beta-cell health and insulin sensitivity, liver homeostasis, inflammation, and cholesterol metabolism. Similarly, multi-protein signatures of composite CKMD phenotypes in children were strongly associated with CKMD-related outcomes in both adult populations. Importantly, many proteins linked to pediatric CKMD were modifiable with GLP-1 receptor agonist therapy, associated with adult CKMD-related outcomes in a large-scale proteome-wide association study (PWAS), and exhibited significant variability during development (ages 4-24 years). These findings demonstrate that CKMD develops starting early in life-course continuum, with proteomic profiles linked to future irreversible CVD conditions emerging early in life when they may still be reversible. This highlights a critical opportunity to improve CVD-free longevity through precision medicine diagnosis and intervention in children and adolescents.

Original language	English (US)
Journal	medRxiv
DOIs	https://doi.org/10.1101/2025.10.27.25338754
State	Published - Oct 31 2025

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

SDG 3 Good Health and Well-being

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10.1101/2025.10.27.25338754

Cite this

Landman, J. M., Highland, H. M., Perry, A. S., Howard, A. G., Sheng, Q., Lorenz, A., Palmer, A. B., Zhao, S., Zhu, W., Zhang, X., Buchanan, V. L., Frankel, E. G., Roshani, R., Scartozzi, A., Farber-Eger, E. H., Anwar, M. Y., Sprinkles, J. K., Breidenbach, A., Wang, T.-C., ... Shah, R. V. (2025). Proteomic signatures of pediatric cardiovascular and cardiometabolic traits demonstrate long-term modifiable drivers of adult disease. medRxiv. https://doi.org/10.1101/2025.10.27.25338754

@article{26156b20abb04c7b97ccc4ccfd9acf66,

title = "Proteomic signatures of pediatric cardiovascular and cardiometabolic traits demonstrate long-term modifiable drivers of adult disease",

abstract = "While the earliest pathological signs of cardiovascular disease (CVD) emerge before age 20, current adult-based risk thresholds fail to identify a substantial fraction of high-risk children. With the rising prevalence of childhood obesity, the need for early and sensitive detection of cardiovascular-kidney-metabolic disease (CKMD) risk is paramount to enable timely intervention that can prevent the trajectory toward CVD in later life. To identify early accessible molecular biomarkers of CKMD in children, we measured 25 CKMD phenotypes, spanning liver, adipose, vascular, and dysglycemia traits, linked those to the circulating proteome and built a multi-protein signature of composite CKMD, leveraging data from 273 children and adolescents (13.1 ± 2.7 years; 53\% females). We compared these results to the adult CKMD proteome, using data from 685 adults from the same community and 28,257 adults from the UK Biobank. The pediatric CKMD proteome was highly concordant with the adult CKMD proteome, reflecting known and novel mechanisms of pancreatic beta-cell health and insulin sensitivity, liver homeostasis, inflammation, and cholesterol metabolism. Similarly, multi-protein signatures of composite CKMD phenotypes in children were strongly associated with CKMD-related outcomes in both adult populations. Importantly, many proteins linked to pediatric CKMD were modifiable with GLP-1 receptor agonist therapy, associated with adult CKMD-related outcomes in a large-scale proteome-wide association study (PWAS), and exhibited significant variability during development (ages 4-24 years). These findings demonstrate that CKMD develops starting early in life-course continuum, with proteomic profiles linked to future irreversible CVD conditions emerging early in life when they may still be reversible. This highlights a critical opportunity to improve CVD-free longevity through precision medicine diagnosis and intervention in children and adolescents.",

author = "Landman, \{Joshua M\} and Highland, \{Heather M\} and Perry, \{Andrew S\} and Howard, \{Annie G\} and Quanhu Sheng and Anna Lorenz and Palmer, \{Alexandra B\} and Shilin Zhao and Wanying Zhu and Xinruo Zhang and Buchanan, \{Victoria L\} and Frankel, \{Elizabeth G\} and Rashedeh Roshani and Alyssa Scartozzi and Farber-Eger, \{Eric H\} and Anwar, \{Mohammad Y\} and Sprinkles, \{Jessica K\} and Ash Breidenbach and Ting-Chen Wang and Ballard, \{Christine A\} and Matthew Nayor and Jaclyn Tamaroff and Absalon Gutierrez and Petty, \{Lauren E\} and Petty, \{Alexander S\} and Benjamin Lippi and Lindsay Fernandez-Rhodes and Hung-Hsin Chen and Mohanraj Krishnan and Mariaelisa Graff and Meyer, \{Katie A\} and Miryoung Lee and Young, \{Kristin L\} and Quinn Wells and Freedman, \{Jane E\} and Gamazon, \{Eric R\} and McCormick, \{Joseph B\} and Fisher-Hoch, \{Susan P\} and Penny Gordon-Larsen and Below, \{Jennifer E\} and North, \{Kari E\} and Shah, \{Ravi V\}",

year = "2025",

month = oct,

day = "31",

doi = "10.1101/2025.10.27.25338754",

language = "English (US)",

journal = "medRxiv",

}

Landman, JM, Highland, HM, Perry, AS, Howard, AG, Sheng, Q, Lorenz, A, Palmer, AB, Zhao, S, Zhu, W, Zhang, X, Buchanan, VL, Frankel, EG, Roshani, R, Scartozzi, A, Farber-Eger, EH, Anwar, MY, Sprinkles, JK, Breidenbach, A, Wang, T-C, Ballard, CA, Nayor, M, Tamaroff, J, Gutierrez, A, Petty, LE, Petty, AS, Lippi, B, Fernandez-Rhodes, L, Chen, H-H, Krishnan, M, Graff, M, Meyer, KA, Lee, M, Young, KL, Wells, Q, Freedman, JE, Gamazon, ER, McCormick, JB, Fisher-Hoch, SP, Gordon-Larsen, P, Below, JE, North, KE & Shah, RV 2025, 'Proteomic signatures of pediatric cardiovascular and cardiometabolic traits demonstrate long-term modifiable drivers of adult disease', medRxiv. https://doi.org/10.1101/2025.10.27.25338754

TY - JOUR

T1 - Proteomic signatures of pediatric cardiovascular and cardiometabolic traits demonstrate long-term modifiable drivers of adult disease

AU - Landman, Joshua M

AU - Highland, Heather M

AU - Perry, Andrew S

AU - Howard, Annie G

AU - Sheng, Quanhu

AU - Lorenz, Anna

AU - Palmer, Alexandra B

AU - Zhao, Shilin

AU - Zhu, Wanying

AU - Zhang, Xinruo

AU - Buchanan, Victoria L

AU - Frankel, Elizabeth G

AU - Roshani, Rashedeh

AU - Scartozzi, Alyssa

AU - Farber-Eger, Eric H

AU - Anwar, Mohammad Y

AU - Sprinkles, Jessica K

AU - Breidenbach, Ash

AU - Wang, Ting-Chen

AU - Ballard, Christine A

AU - Nayor, Matthew

AU - Tamaroff, Jaclyn

AU - Gutierrez, Absalon

AU - Petty, Lauren E

AU - Petty, Alexander S

AU - Lippi, Benjamin

AU - Fernandez-Rhodes, Lindsay

AU - Chen, Hung-Hsin

AU - Krishnan, Mohanraj

AU - Graff, Mariaelisa

AU - Meyer, Katie A

AU - Lee, Miryoung

AU - Young, Kristin L

AU - Wells, Quinn

AU - Freedman, Jane E

AU - Gamazon, Eric R

AU - McCormick, Joseph B

AU - Fisher-Hoch, Susan P

AU - Gordon-Larsen, Penny

AU - Below, Jennifer E

AU - North, Kari E

AU - Shah, Ravi V

PY - 2025/10/31

Y1 - 2025/10/31

N2 - While the earliest pathological signs of cardiovascular disease (CVD) emerge before age 20, current adult-based risk thresholds fail to identify a substantial fraction of high-risk children. With the rising prevalence of childhood obesity, the need for early and sensitive detection of cardiovascular-kidney-metabolic disease (CKMD) risk is paramount to enable timely intervention that can prevent the trajectory toward CVD in later life. To identify early accessible molecular biomarkers of CKMD in children, we measured 25 CKMD phenotypes, spanning liver, adipose, vascular, and dysglycemia traits, linked those to the circulating proteome and built a multi-protein signature of composite CKMD, leveraging data from 273 children and adolescents (13.1 ± 2.7 years; 53% females). We compared these results to the adult CKMD proteome, using data from 685 adults from the same community and 28,257 adults from the UK Biobank. The pediatric CKMD proteome was highly concordant with the adult CKMD proteome, reflecting known and novel mechanisms of pancreatic beta-cell health and insulin sensitivity, liver homeostasis, inflammation, and cholesterol metabolism. Similarly, multi-protein signatures of composite CKMD phenotypes in children were strongly associated with CKMD-related outcomes in both adult populations. Importantly, many proteins linked to pediatric CKMD were modifiable with GLP-1 receptor agonist therapy, associated with adult CKMD-related outcomes in a large-scale proteome-wide association study (PWAS), and exhibited significant variability during development (ages 4-24 years). These findings demonstrate that CKMD develops starting early in life-course continuum, with proteomic profiles linked to future irreversible CVD conditions emerging early in life when they may still be reversible. This highlights a critical opportunity to improve CVD-free longevity through precision medicine diagnosis and intervention in children and adolescents.

AB - While the earliest pathological signs of cardiovascular disease (CVD) emerge before age 20, current adult-based risk thresholds fail to identify a substantial fraction of high-risk children. With the rising prevalence of childhood obesity, the need for early and sensitive detection of cardiovascular-kidney-metabolic disease (CKMD) risk is paramount to enable timely intervention that can prevent the trajectory toward CVD in later life. To identify early accessible molecular biomarkers of CKMD in children, we measured 25 CKMD phenotypes, spanning liver, adipose, vascular, and dysglycemia traits, linked those to the circulating proteome and built a multi-protein signature of composite CKMD, leveraging data from 273 children and adolescents (13.1 ± 2.7 years; 53% females). We compared these results to the adult CKMD proteome, using data from 685 adults from the same community and 28,257 adults from the UK Biobank. The pediatric CKMD proteome was highly concordant with the adult CKMD proteome, reflecting known and novel mechanisms of pancreatic beta-cell health and insulin sensitivity, liver homeostasis, inflammation, and cholesterol metabolism. Similarly, multi-protein signatures of composite CKMD phenotypes in children were strongly associated with CKMD-related outcomes in both adult populations. Importantly, many proteins linked to pediatric CKMD were modifiable with GLP-1 receptor agonist therapy, associated with adult CKMD-related outcomes in a large-scale proteome-wide association study (PWAS), and exhibited significant variability during development (ages 4-24 years). These findings demonstrate that CKMD develops starting early in life-course continuum, with proteomic profiles linked to future irreversible CVD conditions emerging early in life when they may still be reversible. This highlights a critical opportunity to improve CVD-free longevity through precision medicine diagnosis and intervention in children and adolescents.

U2 - 10.1101/2025.10.27.25338754

DO - 10.1101/2025.10.27.25338754

M3 - Article

C2 - 41282792

JO - medRxiv

JF - medRxiv

ER -

Proteomic signatures of pediatric cardiovascular and cardiometabolic traits demonstrate long-term modifiable drivers of adult disease

Abstract

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