- New
-
Topics
- All Categories
- Metaphysics and Epistemology
- Value Theory
- Science, Logic, and Mathematics
- Science, Logic, and Mathematics
- Logic and Philosophy of Logic
- Philosophy of Biology
- Philosophy of Cognitive Science
- Philosophy of Computing and Information
- Philosophy of Mathematics
- Philosophy of Physical Science
- Philosophy of Social Science
- Philosophy of Probability
- General Philosophy of Science
- Philosophy of Science, Misc
- History of Western Philosophy
- Philosophical Traditions
- Philosophy, Misc
- Other Academic Areas
- Journals
- Submit material
- More
Tubulin deacetylase NDST3 modulates lysosomal acidification: Implications in neurological diseases
Bioessays 44 (11):2200110 (2022)
Abstract
Neurological diseases (NDs), featured by progressive dysfunctions of the nervous system, have become a growing burden for the aging populations. N‐Deacetylase and N‐sulfotransferase 3 (NDST3) is known to catalyze deacetylation and N‐sulfation on disaccharide substrates. Recently, NDST3 is identified as a novel deacetylase for tubulin, and its newly recognized role in modulating microtubule acetylation and lysosomal acidification provides fresh insights into ND therapeutic approaches using NDST3 as a target. Microtubule acetylation and lysosomal acidification have been reported to be critical for activities in neurons, implying that the regulators of these two biological processes, such as the previously known microtubule deacetylases, histone deacetylase 6 (HDAC6) and sirtuin 2 (SIRT2), could play important roles in various NDs. Aberrant NDST3 expression or tubulin acetylation has been observed in an increasing number of NDs, including amyotrophic lateral sclerosis and frontotemporal dementia (ALS/FTD), schizophrenia and bipolar disorder, Alzheimer's disease (AD), and Parkinson's disease (PD), suggesting that NDST3 is a key player in the pathogenesis of NDs and may serve as a target for development of new treatment of NDs.Other Versions
No versions found
My notes
Similar books and articles
Trichostatin A and trapoxin: Novel chemical probes for the role of histone acetylation in chromatin structure and function.Minoru Yoshida, Sueharu Horinouchi & Teruhiko Beppu - 1995 - Bioessays 17 (5):423-430.
Roles of histone acetyltransferases and deacetylases in gene regulation.Min-Hao Kuo & C. David Allis - 1998 - Bioessays 20 (8):615-626.
JNK‐interacting protein 4 is a central molecule for lysosomal retrograde trafficking.Yukiko Sasazawa, Nobutaka Hattori & Shinji Saiki - 2023 - Bioessays 45 (11):2300052.
ADNP Plays a Key Role in Autophagy: From Autism to Schizophrenia and Alzheimer's Disease.Shlomo Sragovich, Avia Merenlender-Wagner & Illana Gozes - 2017 - Bioessays 39 (11):1700054.
Acetylated tau in Alzheimer's disease: An instigator of synaptic dysfunction underlying memory loss.Tara E. Tracy & Li Gan - 2017 - Bioessays 39 (4):1600224.
Neurofilaments and neurological disease.Ammar Al-Chalabi & Christopher C. J. Miller - 2003 - Bioessays 25 (4):346-355.
Histone acetylation beyond promoters: long‐range acetylation patterns in the chromatin world.E. Camilla Forsberg & Emery H. Bresnick - 2001 - Bioessays 23 (9):820-830.
Neurodegeneration and identity.Nina Strohminger & Shaun Nichols - 2015 - Psychological Science 26 (9):1469– 1479.
Structural and functional domains of tubulin.Ricardo B. Maccioni, Luis Serrano & Jesus Avila - 1985 - Bioessays 2 (4):165-169.
Analytics
Added to PP
2022-09-23
Downloads
21 (#1,008,197)
6 months
4 (#1,252,858)
2022-09-23
Downloads
21 (#1,008,197)
6 months
4 (#1,252,858)
Historical graph of downloads
PhilPapers logo by Andrea Andrews and Meghan Driscoll.
This site uses cookies and Google Analytics (see our terms & conditions for details regarding the privacy implications). Use of this site is subject to terms & conditions.
All rights reserved by The PhilPapers Foundation
Server: philpapers-web-667477cd97-lv8mh dc2