Osteocyte apoptosis and cellular micropetrosis signify skeletal aging in type 1 diabetes
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Osteocyte apoptosis and cellular micropetrosis signify skeletal aging in type 1 diabetes. / Dragoun Kolibová, Sofie; Wölfel, Eva Maria; Hemmatian, Haniyeh; Milovanovic, Petar; Mushumba, Herbert; Wulff, Birgit; Neidhardt, Maximilian; Püschel, Klaus; Failla, Antonio Virgilio; Vlug, Annegreet; Schlaefer, Alexander; Ondruschka, Benjamin; Amling, Michael; Hofbauer, Lorenz C; Rauner, Martina; Busse, Björn; Jähn-Rickert, Katharina.
in: ACTA BIOMATER, Jahrgang 162, 05.2023, S. 254-265.Publikationen: SCORING: Beitrag in Fachzeitschrift/Zeitung › SCORING: Zeitschriftenaufsatz › Forschung › Begutachtung
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T1 - Osteocyte apoptosis and cellular micropetrosis signify skeletal aging in type 1 diabetes
AU - Dragoun Kolibová, Sofie
AU - Wölfel, Eva Maria
AU - Hemmatian, Haniyeh
AU - Milovanovic, Petar
AU - Mushumba, Herbert
AU - Wulff, Birgit
AU - Neidhardt, Maximilian
AU - Püschel, Klaus
AU - Failla, Antonio Virgilio
AU - Vlug, Annegreet
AU - Schlaefer, Alexander
AU - Ondruschka, Benjamin
AU - Amling, Michael
AU - Hofbauer, Lorenz C
AU - Rauner, Martina
AU - Busse, Björn
AU - Jähn-Rickert, Katharina
PY - 2023/5
Y1 - 2023/5
N2 - Bone fragility is a profound complication of type 1 diabetes mellitus (T1DM), increasing patient morbidity. Within the mineralized bone matrix, osteocytes build a mechanosensitive network that orchestrates bone remodeling; thus, osteocyte viability is crucial for maintaining bone homeostasis. In human cortical bone specimens from individuals with T1DM, we found signs of accelerated osteocyte apoptosis and local mineralization of osteocyte lacunae (micropetrosis) compared with samples from age-matched controls. Such morphological changes were seen in the relatively young osteonal bone matrix on the periosteal side, and micropetrosis coincided with microdamage accumulation, implying that T1DM drives local skeletal aging and thereby impairs the biomechanical competence of the bone tissue. The consequent dysfunction of the osteocyte network hampers bone remodeling and decreases bone repair mechanisms, potentially contributing to the enhanced fracture risk seen in individuals with T1DM. STATEMENT OF SIGNIFICANCE: Type 1 diabetes mellitus (T1DM) is a chronic autoimmune disease that causes hyperglycemia. Increased bone fragility is one of the complications associated with T1DM. Our latest study on T1DM-affected human cortical bone identified the viability of osteocytes, the primary bone cells, as a potentially critical factor in T1DM-bone disease. We linked T1DM with increased osteocyte apoptosis and local accumulation of mineralized lacunar spaces and microdamage. Such structural changes in bone tissue suggest that T1DM speeds up the adverse effects of aging, leading to the premature death of osteocytes and potentially contributing to diabetes-related bone fragility.
AB - Bone fragility is a profound complication of type 1 diabetes mellitus (T1DM), increasing patient morbidity. Within the mineralized bone matrix, osteocytes build a mechanosensitive network that orchestrates bone remodeling; thus, osteocyte viability is crucial for maintaining bone homeostasis. In human cortical bone specimens from individuals with T1DM, we found signs of accelerated osteocyte apoptosis and local mineralization of osteocyte lacunae (micropetrosis) compared with samples from age-matched controls. Such morphological changes were seen in the relatively young osteonal bone matrix on the periosteal side, and micropetrosis coincided with microdamage accumulation, implying that T1DM drives local skeletal aging and thereby impairs the biomechanical competence of the bone tissue. The consequent dysfunction of the osteocyte network hampers bone remodeling and decreases bone repair mechanisms, potentially contributing to the enhanced fracture risk seen in individuals with T1DM. STATEMENT OF SIGNIFICANCE: Type 1 diabetes mellitus (T1DM) is a chronic autoimmune disease that causes hyperglycemia. Increased bone fragility is one of the complications associated with T1DM. Our latest study on T1DM-affected human cortical bone identified the viability of osteocytes, the primary bone cells, as a potentially critical factor in T1DM-bone disease. We linked T1DM with increased osteocyte apoptosis and local accumulation of mineralized lacunar spaces and microdamage. Such structural changes in bone tissue suggest that T1DM speeds up the adverse effects of aging, leading to the premature death of osteocytes and potentially contributing to diabetes-related bone fragility.
U2 - 10.1016/j.actbio.2023.02.037
DO - 10.1016/j.actbio.2023.02.037
M3 - SCORING: Journal article
C2 - 36878337
VL - 162
SP - 254
EP - 265
JO - ACTA BIOMATER
JF - ACTA BIOMATER
SN - 1742-7061
ER -