Analysis of detrended fluctuation function derived from continuous glucose monitoring may assist in distinguishing latent autoimmune diabetes in adults from T2DM

Zhang, Liyin; Tian, Qi; Guo, Keyu; Wu, Junqiang; Ye, Jianan; Ding, Zhiyi; Zhou, Qin; Huang, Gan; Li, Xia; Zhou, Zhiguang; Yang, Lin

doi:10.3389/fendo.2022.948157

Front. Endocrinol.

2022

DOI: 10.3389/fendo.2022.948157

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Analysis of detrended fluctuation function derived from continuous glucose monitoring may assist in distinguishing latent autoimmune diabetes in adults from T2DM

Liyin Zhang

Qi Tian²,

Keyu Guo³

et al.

Abstract: BackgroundWe aimed to explore the performance of detrended fluctuation function (DFF) in distinguishing patients with latent autoimmune diabetes in adults (LADA) from type 2 diabetes mellitus (T2DM) with glucose data derived from continuous glucose monitoring.MethodsIn total, 71 LADA and 152 T2DM patients were enrolled. Correlations between glucose parameters including time in range (TIR), mean glucose, standard deviation (SD), mean amplitude of glucose excursions (MAGE), coefficient of variation (CV), DFF and… Show more

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2024

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Experimental type 1 diabetes metabolically rejuvenates CD8⁺T cells for improved control of tumor growth through an IGF1-IGF1R axis

Sarkar,

Dhar,

Bera

et al. 2024

Preprint

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Epidemiological studies suggest that patients with pre-existing type 1 diabetes (T1D) have a decreased risk of developing melanoma, prostate cancer, and breast cancer, although the underlying mechanism remains to be elucidated. In translational modelling, we observed that streptozotocin (STZ) induced T1D mice exhibited restricted melanoma and carcinoma (mammary, lung and colon) growth in association with extended overall survival. Tumor-infiltrating CD8+T cells were found to be responsible for tumor growth restriction. Tumor infiltrating CD8+T cells but not tumor cells themselves exhibited higher glycolytic and cytotoxic activities in T1D hosts. Such improved anti-tumor T cell function was linked to selective upregulated expression of insulin-like growth factor 1, insulin-like growth factor 1 receptor, and phospho-mTOR in CD8+T cells in the TME. T1D patient derived CD8+T cells displayed superior activationin vitroafter tumor antigen stimulation vs. non-diabetic CD8+T cells. Activation of T1D patient derived CD8+T cells was sensitive to targeted antagonism of IGF1R and mTOR, supporting the operational involvement of the IGF1R-mTOR signaling axis. Our results suggest that selective activation of the intrinsic IGF1R-mTOR signaling axis in CD8+T cells represents a preferred endpoint to achieving more effective immunotherapy outcomes and improved cancer patient management.SignificanceExperimental type 1 diabetes decelerates tumor growth through metabolic activation of cytotoxic T cells dependent on an IGF1R-mTOR signaling pathway. CD8+IGF1R+IGF1+T cells play a crucial role in T1D dependent tumor control.

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Experimental type 1 diabetes metabolically rejuvenates CD8⁺T cells for improved control of tumor growth through an IGF1-IGF1R axis

Sarkar,

Dhar,

Bera

et al. 2024

Preprint

View full text Add to dashboard Cite

show abstract

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Analysis of detrended fluctuation function derived from continuous glucose monitoring may assist in distinguishing latent autoimmune diabetes in adults from T2DM

Cited by 1 publication

References 36 publications

Experimental type 1 diabetes metabolically rejuvenates CD8⁺T cells for improved control of tumor growth through an IGF1-IGF1R axis

Experimental type 1 diabetes metabolically rejuvenates CD8⁺T cells for improved control of tumor growth through an IGF1-IGF1R axis

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Analysis of detrended fluctuation function derived from continuous glucose monitoring may assist in distinguishing latent autoimmune diabetes in adults from T2DM

Cited by 1 publication

References 36 publications

Experimental type 1 diabetes metabolically rejuvenates CD8+T cells for improved control of tumor growth through an IGF1-IGF1R axis

Experimental type 1 diabetes metabolically rejuvenates CD8+T cells for improved control of tumor growth through an IGF1-IGF1R axis

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Product

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Experimental type 1 diabetes metabolically rejuvenates CD8⁺T cells for improved control of tumor growth through an IGF1-IGF1R axis

Experimental type 1 diabetes metabolically rejuvenates CD8⁺T cells for improved control of tumor growth through an IGF1-IGF1R axis