Neurotrophic effects of progranulin in vivo in reversing motor neuron defects caused by over or under expression of TDP-43 or FUS.

Babykumari P Chitramuthu,Andrew Bateman,Denis G Kay,Hugh P J Bennett,Peter F Hitchcock

doi:10.1371/journal.pone.0174784

Babykumari P Chitramuthu, Andrew Bateman + Show 3 more

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https://doi.org/10.1371/journal.pone.0174784

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Abstract

Progranulin (PGRN) is a glycoprotein with multiple roles in normal and disease states. Mutations within the GRN gene cause frontotemporal lobar degeneration (FTLD). The affected neurons display distinctive TAR DNA binding protein 43 (TDP-43) inclusions. How partial loss of PGRN causes TDP-43 neuropathology is poorly understood. TDP-43 inclusions are also found in affected neurons of patients with other neurodegenerative diseases including amyotrophic lateral sclerosis (ALS) and Alzheimer's disease. In ALS, TDP-43 inclusions are typically also immunoreactive for fused in sarcoma (FUS). Mutations within TDP-43 or FUS are themselves neuropathogenic in ALS and some cases of FTLD. We used the outgrowth of caudal primary motor neurons (MNs) in zebrafish embryos to investigate the interaction of PGRN with TDP-43 and FUS in vivo. As reported previously, depletion of zebrafish PGRN-A (zfPGRN-A) is associated with truncated primary MNs and impaired motor function. Here we found that depletion of zfPGRN-A results in primary MNs outgrowth stalling at the horizontal myoseptum, a line of demarcation separating the myotome into dorsal and ventral compartments that is where the final destination of primary motor is assigned. Successful axonal outgrowth beyond the horizontal myoseptum depends in part upon formation of acetylcholine receptor clusters and this was found to be disorganized upon depletion of zfPGRN-A. PGRN reversed the effects of zfPGRN-A knockdown, but a related gene, zfPGRN-1, was without effect. Both knockdown of TDP-43 or FUS, as well as expression of humanTDP-43 and FUS mutants results in MN abnormalities that are reversed by co-expression of hPGRN mRNA. Neither TDP-43 nor FUS reversed MN phenotypes caused by the depletion of PGRN. Thus TDP-43 and FUS lie upstream of PGRN in a gene complementation pathway. The ability of PGRN to override TDP-43 and FUS neurotoxicity due to partial loss of function or mutation in the corresponding genes may have therapeutic relevance.

Highlights

Progranulin (PGRN) is a secreted glycoprotein that regulates many processes including cell proliferation, survival and motility [1]
Inhibition of zfPGRN-A translation resulted in the generation of shorter axons and stalling of CaP Motor Neurons (MNs) at the horizontal myoseptum
We confirmed that the anti-PGRN MOs are active in the HB9-GFP line, resulting in truncated CaP motor neurons (MNs), and that PGRN mRNA reverses this defect as previously reported in were normal MN development (WT) zebrafish (Fig 1A)

Summary

Introduction

Progranulin (PGRN) is a secreted glycoprotein that regulates many processes including cell proliferation, survival and motility [1]. FTD is a general term for a group of disorders that are characterized by frontotemporal lobar degeneration (FTLD). The histopathology of FTLD is typically characterized by the presence of cellular inclusions These are deposits of hyperphosphorylated tau-protein (FTLD-tau), in the case of mutations of MAPT [14], ubiquitinated inclusions (FTLD-U) containing carboxyl-terminal fragments of TDP-43 (TAR-DNA binding protein-43) (FTLD-TDP) in the case of mutations of GRN or C9orf72 [15, 16]. Mutations of either TARDBP, the gene encoding TDP-43 or FUS can cause either ALS [12, 21, 22] or FTLD [23] confirming the neuropathological roles of these two proteins

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