Athanasios Kournoutis
University of Warwick
6 Papers
Athanasios Kournoutis is an academic researcher from University of Warwick. The author has contributed to research in topics: Autophagy & Biology. The author has an hindex of 1, co-authored 1 publications.
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Papers
NBR1: The archetypal selective autophagy receptor
TL;DR: NBR1 is discussed as the archetypical selective autophagy receptor, as well as its known cargos, roles in diseases, and collaboration with p62.
Nuclear autophagy interactome unveils WSTF as a constitutive nuclear inhibitor of inflammation
Yu Wang,Vinay V. Eapen,Athanasios Kournoutis,Angelique Onorati,Xianting Li,Xiaoting Zhou,Murat Cetinbas,Lu Wang,Jihe Liu,Corey Bretz,Zhuo Zhou,Shannan J. Ho Sui,Srinivas Vinod Saladi,Ruslan I. Sadreyev,Peter D. Adams,Robert E. Kingston,Zhenyu Yue,Terje Johansen,Zhixun Dou +18 more
TL;DR: WSTF, a component of the ISWI chromatin remodeling complex, is identified as a novel substrate of nuclear autophagy and reveals a novel nuclear inhibitor of inflammation implicated in diverse pathological contexts.
2
WSTF nuclear autophagy regulates chronic but not acute inflammation.
Yu Wang,Vinay V Eapen,Yaosi Liang,Athanasios Kournoutis,Marc S. Sherman,Yanxin Xu,Angelique Onorati,Xianting Li,Xiaoting Zhou,Kathleen E. Corey,Kuo Du,Ana Maria Cabral Burkard,Chia-Kang Ho,Jing Xie,Hui Zhang,Raquel Maeso-Díaz,Xinyi Ma,Ulrike Rieprecht,Tara C. O’Brien,Murat Cetinbas,Lu Wang,Jihe Liu,Corey Bretz,Aaron P Havas,Zhuo Zhou,Shannan J. Ho Sui,Srinivas Vinod Saladi,Ruslan Sadreyev,P. Adams,Robert E. Kingston,Anna Mae Diehl,Benjamin A. Alman,Wolfram Goessling,Zhenyu Yue,Xiao-Fan Wang,Terje Johansen,Zhixun Dou +36 more
1
Molecular mechanisms of selective autophagy in Drosophila.
TL;DR: An overview of autophagy and its selectivity in Drosophila will be presented, as the autophagic machinery is highly conserved, although much is still left to be explored.
MORG1 limits mTORC1 signaling by inhibiting Rag GTPases.
TL;DR: It is reported that the WD-domain repeat protein MORG1 facilitates basal constitutive autophagy by inhibiting mTORC1 signaling through Rag GTPases.