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The IGF-1 senescence switch: a biphasic model for SASP-driven aging and precision senomodulation.
Manni E, Al-Kuraishy HM, Hussain NR, Abdelaziz AM, Batiha GE.
Cytokine · 2026
Genomic instability
Deregulated nutrient-sensing
Mitochondrial dysfunction
Cellular senescence
Altered intercellular communication
Chronic inflammation
Senolytics
Human
Review
Abstract
Insulin-like growth factor-1 (IGF-1) signaling plays a paradoxical role in aging, acting as both a mediator of tissue repair and a driver of chronic inflammation through the senescence(definition)-associated secretory phenotype (SASP). In this review, we propose a biphasic senescence switch model in which the temporal pattern of IGF-1 exposure, acute versus chronic, determines cellular fate. Transient IGF-1 signaling supports homeostasis and repair, whereas sustained activation promotes stable senescence via reactive oxygen species (ROS)-mediated DNA damage, p53/p21 pathway activation, and a potent pro-inflammatory SASP. Central to this process is IGF-binding protein-5 (IGFBP-5), which amplifies senescence in vascular and stromal cells by linking coagulation and inflammatory signals to p53-dependent arrest. The contrasting human conditions of IGF-1 deficiency (Laron syndrome) and excess (acromegaly) illustrate the lifespan and disease risks associated with dysregulated IGF-1 signaling. Emerging evidence highlights the role of extracellular vesicles in bypassing soluble IGFBP regulation, enabling paracrine propagation of senescence even under systemic IGF-1 modulation. Ultimately, we position the IGF-1/IGFBP axis as a prime target for precision senomodulation, advocating for combined strategies that temporally tune endocrine signaling with senolytic and senomorphic therapies to mitigate chronic inflammation, delay age-related dysfunction, and extend healthspan(definition).
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Provenance
- Source
- Europe PMC
- DOI
- 10.1016/j.cyto.2026.157143
- Canonical
- link ↗
- Fetched
- 2026-07-02 MST
Cite this
APA
E, M., HM, A., NR, H., AM, A., & GE., B. (2026). The IGF-1 senescence switch: a biphasic model for SASP-driven aging and precision senomodulation. <em>Cytokine</em>. https://doi.org/10.1016/j.cyto.2026.157143
Vancouver
E M, HM A, NR H, AM A, GE. B. The IGF-1 senescence switch: a biphasic model for SASP-driven aging and precision senomodulation. Cytokine. 2026. doi:10.1016/j.cyto.2026.157143.
BibTeX
@article{manni2026TheIGF,
title = {The IGF-1 senescence switch: a biphasic model for SASP-driven aging and precision senomodulation.},
author = {Manni E and Al-Kuraishy HM and Hussain NR and Abdelaziz AM and Batiha GE.},
journal = {Cytokine},
year = {2026},
doi = {10.1016/j.cyto.2026.157143},
}
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