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Circulation Research
|
May 24, 2008
Chronic apoptosis of vascular smooth muscle cells accelerates atherosclerosis and promotes calcification and medial degeneration
Murray C H Clarke, Trevor D Littlewood, Nichola Figg, et al.
Cardiovascular Research
|
June 13, 2023
Thrombin-activated interleukin-1α drives atherogenesis, but also promotes vascular smooth muscle cell proliferation and collagen production
Laura C Burzynski, Alejandra Morales-Maldonado, Amanda Rodgers, et al.
Aging Cell
|
March 28, 2019
IL-1α cleavage by inflammatory caspases of the noncanonical inflammasome controls the senescence-associated secretory phenotype
Kimberley A Wiggins, Aled J Parry, Liam D Cassidy, et al.
Cardiovascular Research
|
June 27, 2025
Delineation of a thrombin receptor-stimulated vascular smooth muscle cell transition generating cells in the plaque-stabilizing fibrous cap
James C K Taylor, Matthew D Worssam, Sebnem Oc, et al.
Immunity
|
March 31, 2019
The Coagulation and Immune Systems Are Directly Linked through the Activation of Interleukin-1α by Thrombin
Laura C Burzynski, Melanie Humphry, Katerina Pyrillou, et al.
Nature Communications
|
January 18, 2020
Temporal inhibition of autophagy reveals segmental reversal of ageing with increased cancer risk
Liam D Cassidy, Andrew R J Young, Christopher N J Young, et al.
Circulation
|
July 12, 2013
Mitochondrial DNA damage can promote atherosclerosis independently of reactive oxygen species through effects on smooth muscle cells and monocytes and correlates with higher-risk plaques in humans
Emma Yu, Patrick A Calvert, John R Mercer, et al.
Circulation
|
March 26, 2014
Response to letter regarding article, "Mitochondrial DNA damage can promote atherosclerosis independently of reactive oxygen species through effects on smooth muscle cells and monocytes and correlates with higher-risk plaques in humans"
Emma Yu, Patrick A Calvert, John R Mercer, et al.
Immunity
|
May 31, 2025
A CD4<sup>+</sup> T cell-intrinsic complement C5aR2-prostacyclin-IL-1R2 axis orchestrates Th1 cell contraction
Jubayer Rahman, Jack A Bibby, Parul Singh, et al.
Page
of 8
Search research articles
Search
Showing results (71-80 of 79) with videos related to
Sort By:
Page
of 8
You have reached the last page of results.
This site can display upto 79 results.
Circulation Research
|
May 24, 2008
Chronic apoptosis of vascular smooth muscle cells accelerates atherosclerosis and promotes calcification and medial degeneration
Murray C H Clarke, Trevor D Littlewood, Nichola Figg, et al.
Cardiovascular Research
|
June 13, 2023
Thrombin-activated interleukin-1α drives atherogenesis, but also promotes vascular smooth muscle cell proliferation and collagen production
Laura C Burzynski, Alejandra Morales-Maldonado, Amanda Rodgers, et al.
Aging Cell
|
March 28, 2019
IL-1α cleavage by inflammatory caspases of the noncanonical inflammasome controls the senescence-associated secretory phenotype
Kimberley A Wiggins, Aled J Parry, Liam D Cassidy, et al.
Cardiovascular Research
|
June 27, 2025
Delineation of a thrombin receptor-stimulated vascular smooth muscle cell transition generating cells in the plaque-stabilizing fibrous cap
James C K Taylor, Matthew D Worssam, Sebnem Oc, et al.
Immunity
|
March 31, 2019
The Coagulation and Immune Systems Are Directly Linked through the Activation of Interleukin-1α by Thrombin
Laura C Burzynski, Melanie Humphry, Katerina Pyrillou, et al.
Nature Communications
|
January 18, 2020
Temporal inhibition of autophagy reveals segmental reversal of ageing with increased cancer risk
Liam D Cassidy, Andrew R J Young, Christopher N J Young, et al.
Circulation
|
July 12, 2013
Mitochondrial DNA damage can promote atherosclerosis independently of reactive oxygen species through effects on smooth muscle cells and monocytes and correlates with higher-risk plaques in humans
Emma Yu, Patrick A Calvert, John R Mercer, et al.
Circulation
|
March 26, 2014
Response to letter regarding article, "Mitochondrial DNA damage can promote atherosclerosis independently of reactive oxygen species through effects on smooth muscle cells and monocytes and correlates with higher-risk plaques in humans"
Emma Yu, Patrick A Calvert, John R Mercer, et al.
Immunity
|
May 31, 2025
A CD4<sup>+</sup> T cell-intrinsic complement C5aR2-prostacyclin-IL-1R2 axis orchestrates Th1 cell contraction
Jubayer Rahman, Jack A Bibby, Parul Singh, et al.
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of 8