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. 2025 Apr 2;33(4):1842-1859.
doi: 10.1016/j.ymthe.2025.02.015. Epub 2025 Feb 12.

Modulating the PD-1-FABP5 axis in ILC2s to regulate adipose tissue metabolism in obesity

Jongho Ham  1 Jaemoon Koh  2 Jungeun Kim  3 Joo-Youn Cho  4 TaeSoo Kim  5 Doo Hyun Chung  2 Yong-Soo Bae  6 Hye Young Kim  7
Affiliations

Modulating the PD-1-FABP5 axis in ILC2s to regulate adipose tissue metabolism in obesity

Jongho Ham et al. Mol Ther. .

Abstract

Obesity is closely linked to metabolic dysregulation and chronic inflammation, which significantly impact immune cell functions in adipose tissue. Type 2 innate lymphoid cells (ILC2s) have emerged as key regulators of energy homeostasis, positioning them as promising targets for obesity management. However, the mechanisms governing ILC2 activity and their therapeutic potential in obesity are not fully understood. In this study, we demonstrate that ILC2s in obese adipose tissue exhibit increased PD-1 expression, leading to an exhausted phenotype with diminished cytokine production and proliferation. Elevated osteopontin (OPN) levels in adipose tissue are associated with higher PD-1 expression on ILC2s, while adipocyte-derived PD-L1 interacts with PD-1 to further impair ILC2 functionality. Importantly, blocking PD-1 signaling prevents weight gain and alleviates obesity-related metabolic dysfunctions. In addition, the adoptive transfer of PD-1-deficient ILC2s reduces diabetic phenotypes in obese models. Mechanistically, PD-1 signaling drives metabolic reprogramming in ILC2s, affecting fatty acid uptake and energy metabolism through the downregulation of fatty acid binding protein 5 (FABP5). These results, corroborated by findings in human adipose tissue, suggest a conserved OPN-PD-1 axis. Our study identifies the OPN-PD-1-FABP5 pathway as a crucial regulator of ILC2 function in adipose tissue and presents an emerging immune cell-based therapeutic target for obesity treatment.

Keywords: FABP5; PD-1; fatty acid metabolism; immune exhaustion; immunometabolism; innate lymphoid cell; metabolic dysregulation; obesity; osteopontin.

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Conflict of interest statement

Declaration of interests The authors declare no competing interests.

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