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The growth hormone/IGF-1 axis is a risk factor for long-term kidney allograft failure
Matthew Cusick, Viji Nair, Damian Fermin, John Hartman, Jeffrey A. Beamish, Zeguo Sun, Zhongyang Zhang, Edgar Otto, Rajasree Menon, Sudha Nadimidla, Nicholas Demchuk, Kelly Shaffer, Peter Heeger, Weija Zhang, Madhav C. Menon, Matthias Kretzler, Roger C. Wiggins, Abhijit S. Naik
Matthew Cusick, Viji Nair, Damian Fermin, John Hartman, Jeffrey A. Beamish, Zeguo Sun, Zhongyang Zhang, Edgar Otto, Rajasree Menon, Sudha Nadimidla, Nicholas Demchuk, Kelly Shaffer, Peter Heeger, Weija Zhang, Madhav C. Menon, Matthias Kretzler, Roger C. Wiggins, Abhijit S. Naik
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Clinical Research and Public Health Nephrology Therapeutics

The growth hormone/IGF-1 axis is a risk factor for long-term kidney allograft failure

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Abstract

INTRODUCTION Maladaptive hypertrophy, podocyte stress, and depletion contribute to kidney function decline. Although insulin-like growth factor 1 (IGF-1) plays a key role in early hypertrophic responses in the single kidney state, its impact on kidney transplant (KTx) outcomes remains uncertain. This report tests the hypothesis that early IGF-1 exposure reduces KTx survival. METHODS Population datasets compared incident death-censored graft failure (DCGF) rates by age at KTx (n = 366,404) with IGF-1 levels by age (n = 15,014). A clinical study of 216 KTx recipients evaluated the association of IGF-1 exposure with DCGF and secondary outcomes of proteinuria and biopsy-proven acute rejection. IGF-1 exposure was modeled using pre-KTx IGF-1 levels and donor kidney dose estimated from the donor/recipient body surface area ratio reflecting allograft hyperfiltration. The association of DCGF with an IGF1 SNP linked to high IGF-1 levels was assessed in 724 genotyped allograft recipients. Single-cell transcriptomic data from first-year post-KTx patients and binephric donors were compared to assess intrarenal cellular expression of IGF1, IGF1R, and growth hormone receptor (GHR) transcripts. RESULTS DCGF risk by age at KTx paralleled IGF-1 levels by age. Higher IGF-1 exposure was associated with significantly increased risks of DCGF, proteinuria, and T cell–mediated rejection. Genotypic analysis showed a 50% increase in DCGF risk per risk allele at IGF1 expression quantitative trait locus rs35767. First-year biopsy results revealed no increase in intrarenal IGF1 transcripts, while GHR and IGF1R transcripts were suppressed, consistent with circulating IGF-1 (vs. graft-derived IGF-1) being the primary source of IGF-1 exposure. CONCLUSION We identify a role for the growth hormone/IGF-1 axis in reducing KTx survival.

Authors

Matthew Cusick, Viji Nair, Damian Fermin, John Hartman, Jeffrey A. Beamish, Zeguo Sun, Zhongyang Zhang, Edgar Otto, Rajasree Menon, Sudha Nadimidla, Nicholas Demchuk, Kelly Shaffer, Peter Heeger, Weija Zhang, Madhav C. Menon, Matthias Kretzler, Roger C. Wiggins, Abhijit S. Naik

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Figure 2

Comparison between 2 reference populations where IGF-1 levels and transplant outcomes by age are tested.

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Comparison between 2 reference populations where IGF-1 levels and transp...
(A) Age-specific average (solid dark line) IGF-1 levels from Bidlingmaier et al. (30) for males, with 1 SD (dashed lines) above and below mean values. Dotted lines represent the 2-SD values. (B) Age-specific average (solid gray line) IGF-1 levels for females, with 1 SD (dashed lines) above and below mean values. Dotted lines represent the 2-SD values. (C) Solid line shows mean IGF-1 levels for pooled males and females, which were not statistically significantly different, both peaking at 15 years of age. (D) Incident DCGF rate per 1000 patient-years with 95% CI. (E) Breakdown of incident DCGF rate per 1000 patient years into short-term (1 year), intermediate-term (3 years), and long-term (10 years) outcomes. (F) Median death-censored allograft survival rates in dark circles and their 25% and 75% values in gray. The dashed vertical line represents 15 years of age across all panels.

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