CD4+ T-cell activation of bone marrow causes bone fragility and insulin resistance in type 2 diabetes

Type 2 diabetes mellitus (T2DM) causes an increased risk of bone fractures. However, the pathophysiology of diabetic bone fragility is not completely understood. It has been proposed that an inflammatory microenvironment in bone could be a major mechanism by inducing uncontrolled bone resorption, in...

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Published in:Bone (New York, N.Y.) N.Y.), 2022-02, Vol.155, p.116292-116292, Article 116292
Main Authors: Cifuentes-Mendiola, S.E., Solis-Suarez, D.L., Martínez-Dávalos, A., Godínez-Victoria, M., García-Hernández, A.L.
Format: Article
Language:English
Subjects:
Abatacept - metabolism
Activated T-cells
Animals
Bone fragility
Bone marrow
Bone Marrow - metabolism
Bone quality
CD4-Positive T-Lymphocytes
Diabetes Mellitus, Type 2 - complications
Diabetes Mellitus, Type 2 - metabolism
Female
Insulin Resistance
Male
Mice
Mice, Inbred C57BL
T-Lymphocytes - metabolism
Type 2 diabetes
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cited_by cdi_FETCH-LOGICAL-c356t-2fc9a0c1bb34c4859c325b06b953308d6afd586c863a4dea5dd5903354fb5af73
cites cdi_FETCH-LOGICAL-c356t-2fc9a0c1bb34c4859c325b06b953308d6afd586c863a4dea5dd5903354fb5af73
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container_title Bone (New York, N.Y.)
container_volume 155
creator Cifuentes-Mendiola, S.E.
Solis-Suarez, D.L.
Martínez-Dávalos, A.
Godínez-Victoria, M.
García-Hernández, A.L.
description Type 2 diabetes mellitus (T2DM) causes an increased risk of bone fractures. However, the pathophysiology of diabetic bone fragility is not completely understood. It has been proposed that an inflammatory microenvironment in bone could be a major mechanism by inducing uncontrolled bone resorption, inadequate bone formation and consequently more porous bones. We propose that activated T-cells in the bone marrow cause a pro-inflammatory microenvironment in bone, and cause bone fragility in T2DM. We induced T2DM in C57BL/6 male mice through a hypercaloric diet rich in carbohydrates and low doses of streptozocin. In T2DM mice we inhibited systemic activation of T-cells with a fusion protein between the extracellular domain of Cytotoxic T-Lymphocyte Antigen 4 and the Fc domain of human immunoglobulin G (CTLA4-Ig). We analysed the effects of T2DM or CTLA4-Ig in lymphocyte cell subsets and antigen-presenting cells in peripheral blood and femoral bone marrow; and their effect on the metabolic phenotype, blood and bone cytokine concentration, femoral bone microarchitecture and biomechanical properties, and the number of osteoblast-like cells in the femoral endosteum. We performed a Pearson multiple correlation analysis between all variables in order to understand the global mechanism. Results demonstrated that CTLA4-Ig decreased the number of activated CD4+ T-cells in the femoral bone marrow and consequently decreased TNF-α and RANK-L concentration in bone, notably improved femoral bone microarchitecture and biomechanical properties, increased the number of osteoblast-like cells, and reduces osteoclastic activity compared to T2DM mice that did not receive the inhibitor. Interestingly, we observed that blood glucose levels and insulin resistance may be related to the increase in activated CD4+ T-cells in the bone marrow. We conclude that bone marrow activated CD4+ T-cells cause poor bone quality and insulin resistance in T2DM. [Display omitted] •Bone marrow activated CD4+T-cells generate bone pro-inflammatory microenvironment.•Bone marrow activated CD4+ T-cells produce bone fragility in T2DM.•Bone marrow activated CD4+ T-cells contribute to insulin resistance in T2DM.•Inhibition of activated CD4+ T-cells improves bone microarchitecture in T2DM.
doi_str_mv 10.1016/j.bone.2021.116292
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However, the pathophysiology of diabetic bone fragility is not completely understood. It has been proposed that an inflammatory microenvironment in bone could be a major mechanism by inducing uncontrolled bone resorption, inadequate bone formation and consequently more porous bones. We propose that activated T-cells in the bone marrow cause a pro-inflammatory microenvironment in bone, and cause bone fragility in T2DM. We induced T2DM in C57BL/6 male mice through a hypercaloric diet rich in carbohydrates and low doses of streptozocin. In T2DM mice we inhibited systemic activation of T-cells with a fusion protein between the extracellular domain of Cytotoxic T-Lymphocyte Antigen 4 and the Fc domain of human immunoglobulin G (CTLA4-Ig). We analysed the effects of T2DM or CTLA4-Ig in lymphocyte cell subsets and antigen-presenting cells in peripheral blood and femoral bone marrow; and their effect on the metabolic phenotype, blood and bone cytokine concentration, femoral bone microarchitecture and biomechanical properties, and the number of osteoblast-like cells in the femoral endosteum. We performed a Pearson multiple correlation analysis between all variables in order to understand the global mechanism. Results demonstrated that CTLA4-Ig decreased the number of activated CD4+ T-cells in the femoral bone marrow and consequently decreased TNF-α and RANK-L concentration in bone, notably improved femoral bone microarchitecture and biomechanical properties, increased the number of osteoblast-like cells, and reduces osteoclastic activity compared to T2DM mice that did not receive the inhibitor. Interestingly, we observed that blood glucose levels and insulin resistance may be related to the increase in activated CD4+ T-cells in the bone marrow. We conclude that bone marrow activated CD4+ T-cells cause poor bone quality and insulin resistance in T2DM. 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We analysed the effects of T2DM or CTLA4-Ig in lymphocyte cell subsets and antigen-presenting cells in peripheral blood and femoral bone marrow; and their effect on the metabolic phenotype, blood and bone cytokine concentration, femoral bone microarchitecture and biomechanical properties, and the number of osteoblast-like cells in the femoral endosteum. We performed a Pearson multiple correlation analysis between all variables in order to understand the global mechanism. Results demonstrated that CTLA4-Ig decreased the number of activated CD4+ T-cells in the femoral bone marrow and consequently decreased TNF-α and RANK-L concentration in bone, notably improved femoral bone microarchitecture and biomechanical properties, increased the number of osteoblast-like cells, and reduces osteoclastic activity compared to T2DM mice that did not receive the inhibitor. Interestingly, we observed that blood glucose levels and insulin resistance may be related to the increase in activated CD4+ T-cells in the bone marrow. We conclude that bone marrow activated CD4+ T-cells cause poor bone quality and insulin resistance in T2DM. 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subjects Abatacept - metabolism
Activated T-cells
Animals
Bone fragility
Bone marrow
Bone Marrow - metabolism
Bone quality
CD4-Positive T-Lymphocytes
Diabetes Mellitus, Type 2 - complications
Diabetes Mellitus, Type 2 - metabolism
Female
Insulin Resistance
Male
Mice
Mice, Inbred C57BL
T-Lymphocytes - metabolism
Type 2 diabetes
title CD4+ T-cell activation of bone marrow causes bone fragility and insulin resistance in type 2 diabetes
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