Virgil Muresan1, Zoia Ladescu Muresan. 1. Department of Pharmacology, Physiology and Neuroscience, New Jersey Medical School, Rutgers, The State University of New Jersey, Newark, N.J., USA.
Abstract
BACKGROUND: Amyotrophic lateral sclerosis (ALS), a debilitating neurodegenerative disorder of the motor neurons, leads to the disorganization of the neurofilament (NF) cytoskeleton and - ultimately - the deterioration of the neuromuscular junction. Some familial cases of ALS are caused by mutated FUS, TDP-43 or SOD1; it is thought that the mutated proteins inflict pathology either by gain or loss of function. The proper function of the neuromuscular junction requires sAPP, a soluble proteolytic fragment of the amyloid-β precursor protein (APP) - a transmembrane protein implicated in the pathology of Alzheimer's disease (AD). Whether sAPP, FUS, TDP-43 and SOD1 are mechanistically linked in a common pathway deregulated in both AD and ALS is not known. SUMMARY: We show that sAPP, TDP-43, FUS and SOD1 are transported to neurite terminals by a mechanism that involves endoplasmic reticulum (ER)-like tubules and requires peripherin NFs. The transport of these proteins, and the translocation of the ER protein reticulon 4 (Rtn4) into neurites was studied in CAD cells, a brainstem-derived neuronal cell line highly relevant to AD and ALS. We show that a significant fraction of sAPP is generated in the soma and accumulates in a juxtanuclear ER subdomain. In neurites, sAPP localizes to Rtn4-positive ER-like tubules that extend from the soma into the growth cone and colocalizes with peripherin NFs. Knocking down peripherin disrupts the NF network and diminishes the accumulation of sAPP, TDP-43, FUS, SOD1 and Rtn4 at terminals. KEY MESSAGES: We propose that the impediment of a common, ER-mediated mechanism of transport of sAPP, TDP-43, FUS and SOD1, caused by a disrupted NF network, could be part of the mechanisms leading to AD and ALS.
BACKGROUND:Amyotrophic lateral sclerosis (ALS), a debilitating neurodegenerative disorder of the motor neurons, leads to the disorganization of the neurofilament (NF) cytoskeleton and - ultimately - the deterioration of the neuromuscular junction. Some familial cases of ALS are caused by mutated FUS, TDP-43 or SOD1; it is thought that the mutated proteins inflict pathology either by gain or loss of function. The proper function of the neuromuscular junction requires sAPP, a soluble proteolytic fragment of the amyloid-β precursor protein (APP) - a transmembrane protein implicated in the pathology of Alzheimer's disease (AD). Whether sAPP, FUS, TDP-43 and SOD1 are mechanistically linked in a common pathway deregulated in both AD and ALS is not known. SUMMARY: We show that sAPP, TDP-43, FUS and SOD1 are transported to neurite terminals by a mechanism that involves endoplasmic reticulum (ER)-like tubules and requires peripherin NFs. The transport of these proteins, and the translocation of the ER protein reticulon 4 (Rtn4) into neurites was studied in CAD cells, a brainstem-derived neuronal cell line highly relevant to AD and ALS. We show that a significant fraction of sAPP is generated in the soma and accumulates in a juxtanuclear ER subdomain. In neurites, sAPP localizes to Rtn4-positive ER-like tubules that extend from the soma into the growth cone and colocalizes with peripherin NFs. Knocking down peripherin disrupts the NF network and diminishes the accumulation of sAPP, TDP-43, FUS, SOD1 and Rtn4 at terminals. KEY MESSAGES: We propose that the impediment of a common, ER-mediated mechanism of transport of sAPP, TDP-43, FUS and SOD1, caused by a disrupted NF network, could be part of the mechanisms leading to AD and ALS.
Authors: Catalina Amador-Ortiz; Wen-Lang Lin; Zeshan Ahmed; David Personett; Peter Davies; Ranjan Duara; Neill R Graff-Radford; Michael L Hutton; Dennis W Dickson Journal: Ann Neurol Date: 2007-05 Impact factor: 10.422
Authors: Xiufang Guo; Virginia Smith; Max Jackson; My Tran; Michael Thomas; Aakash Patel; Eric Lorusso; Siddharth Nimbalkar; Yunqing Cai; Christopher W McAleer; Ying Wang; Christopher J Long; James J Hickman Journal: Adv Ther (Weinh) Date: 2020-08-11