TY - JOUR
T1 - Decreased hepatic thyroid hormone signaling in systemic and liver-specific, but not brain-specific accelerated aging due to DNA repair deficiency in mice
AU - Barnhoorn, Sander
AU - Meima, Marcel E
AU - Peeters, Robin P
AU - Darras, Veerle M
AU - Leeuwenburgh, Selmar
AU - Hoeijmakers, Jan H J
AU - Vermeij, Wilbert P
AU - Visser, W Edward
PY - 2023/12/1
Y1 - 2023/12/1
N2 - BACKGROUND: Thyroid hormone signaling is essential for development, metabolism, and response to stress but declines during aging, the cause of which is unknown. DNA damage accumulating with time is a main cause of aging, driving many age-related diseases. Previous studies in normal and premature aging mice, due to defective DNA repair, indicated reduced hepatic thyroid hormone signaling accompanied by decreased type 1 deiodinase (DIO1) and increased DIO3 activities. We investigated whether aging-related changes in deiodinase activity are driven by systemic signals or represent cell- or organ-autonomous changes.METHODS: We quantified liver and plasma thyroid hormone concentrations, deiodinase activities and expression of T3-responsive genes in mice with a global, liver-specific and for comparison brain-specific inactivation of Xpg, one of the endonucleases critically involved in multiple DNA repair pathways.RESULTS: Both in global and liver-specific Xpg knockout mice, hepatic DIO1 activity was decreased. Interestingly, hepatic DIO3 activity was increased in global, but not in liver-specific Xpg mutants. Selective Xpg deficiency and premature aging in the brain did not affect liver or systemic thyroid signaling. Concomitant with DIO1 inhibition, Xpg -/- and Alb-Xpg mice displayed reduced thyroid hormone-related gene expression changes, correlating with markers of liver damage and cellular senescence.CONCLUSIONS: Our findings suggest that DIO1 activity during aging is predominantly modified in a tissue-autonomous manner driven by organ/cell-intrinsic accumulating DNA damage. The increase in hepatic DIO3 activity during aging largely depends on systemic signals, possibly reflecting the presence of circulating cells rather than activity in hepatocytes.
AB - BACKGROUND: Thyroid hormone signaling is essential for development, metabolism, and response to stress but declines during aging, the cause of which is unknown. DNA damage accumulating with time is a main cause of aging, driving many age-related diseases. Previous studies in normal and premature aging mice, due to defective DNA repair, indicated reduced hepatic thyroid hormone signaling accompanied by decreased type 1 deiodinase (DIO1) and increased DIO3 activities. We investigated whether aging-related changes in deiodinase activity are driven by systemic signals or represent cell- or organ-autonomous changes.METHODS: We quantified liver and plasma thyroid hormone concentrations, deiodinase activities and expression of T3-responsive genes in mice with a global, liver-specific and for comparison brain-specific inactivation of Xpg, one of the endonucleases critically involved in multiple DNA repair pathways.RESULTS: Both in global and liver-specific Xpg knockout mice, hepatic DIO1 activity was decreased. Interestingly, hepatic DIO3 activity was increased in global, but not in liver-specific Xpg mutants. Selective Xpg deficiency and premature aging in the brain did not affect liver or systemic thyroid signaling. Concomitant with DIO1 inhibition, Xpg -/- and Alb-Xpg mice displayed reduced thyroid hormone-related gene expression changes, correlating with markers of liver damage and cellular senescence.CONCLUSIONS: Our findings suggest that DIO1 activity during aging is predominantly modified in a tissue-autonomous manner driven by organ/cell-intrinsic accumulating DNA damage. The increase in hepatic DIO3 activity during aging largely depends on systemic signals, possibly reflecting the presence of circulating cells rather than activity in hepatocytes.
KW - Aging, Premature/genetics
KW - Aging/genetics
KW - Animals
KW - Brain/metabolism
KW - DNA Repair-Deficiency Disorders/metabolism
KW - Iodide Peroxidase/genetics
KW - Liver/metabolism
KW - Mice
KW - Mice, Knockout
KW - Thyroid Hormones/metabolism
UR - https://www.mendeley.com/catalogue/a2ea0018-e33c-3049-b562-0bde72eaf8ba/
U2 - 10.1530/ETJ-22-0231
DO - 10.1530/ETJ-22-0231
M3 - Article
C2 - 37878415
SN - 2235-0640
VL - 12
JO - European thyroid journal
JF - European thyroid journal
IS - 6
ER -