Reduction of nemo-like kinase increases lysosome biogenesis and ameliorates TDP-43–related neurodegeneration
Leon Tejwani, … , Paymaan Jafar-Nejad, Janghoo Lim
Leon Tejwani, … , Paymaan Jafar-Nejad, Janghoo Lim
Published June 29, 2023
Citation Information: J Clin Invest. 2023;133(16):e138207. https://doi.org/10.1172/JCI138207.
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Research Article Genetics Neuroscience

Reduction of nemo-like kinase increases lysosome biogenesis and ameliorates TDP-43–related neurodegeneration

Abstract

Protein aggregation is a hallmark of many neurodegenerative disorders, including amyotrophic lateral sclerosis (ALS). Although mutations in TARDBP, encoding transactive response DNA-binding protein 43 kDa (TDP-43), account for less than 1% of all ALS cases, TDP-43–positive aggregates are present in nearly all ALS patients, including patients with sporadic ALS (sALS) or carrying other familial ALS–causing (fALS-causing) mutations. Interestingly, TDP-43 inclusions are also present in subsets of patients with frontotemporal dementia, Alzheimer’s disease, and Parkinson’s disease; therefore, methods of activating intracellular protein quality control machinery capable of clearing toxic cytoplasmic TDP-43 species may alleviate disease-related phenotypes. Here, we identify a function of nemo-like kinase (Nlk) as a negative regulator of lysosome biogenesis. Genetic or pharmacological reduction of Nlk increased lysosome formation and improved clearance of aggregated TDP-43. Furthermore, Nlk reduction ameliorated pathological, behavioral, and life span deficits in 2 distinct mouse models of TDP-43 proteinopathy. Because many toxic proteins can be cleared through the autophagy/lysosome pathway, targeted reduction of Nlk represents a potential approach to therapy development for multiple neurodegenerative disorders.

Authors

Leon Tejwani, Youngseob Jung, Hiroshi Kokubu, Sowmithra Sowmithra, Luhan Ni, Changwoo Lee, Benjamin Sanders, Paul J. Lee, Yangfei Xiang, Kimberly Luttik, Armand Soriano, Jennifer Yoon, Junhyun Park, Hannah H. Ro, Hyoungseok Ju, Clara Liao, Sofia Massaro Tieze, Frank Rigo, Paymaan Jafar-Nejad, Janghoo Lim

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Figure 4

Genetic reduction of Nlk improves survival and pathology in TDP-43 mice.

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Genetic reduction of Nlk improves survival and pathology in TDP-43 mice....
(A) Kaplan-Meier survival curves showing 50% genetic reduction of Nlk increased Prp-TDPA315T/+ (Prp–TDP-43 Tg) male and female animal survival. Data are combined from 2 independent Nlk gene trap insertion lines. Sample sizes for each genotype are provided in the figure. Curves were compared by log-rank test. (B) A 50% genetic reduction of Nlk did not affect cortex or spinal cord hTARDBP mRNA levels in P84 Prp-TDPA315T/+ mice (Nlk+/+, n = 4 animals; Nlk+/–, n = 3 animals). (CF) Representative immunohistochemical images showing genetic reduction of Nlk increased Lamp1+ lysosomes in the soma (small dotted lines) of lumbar spinal cord motor neurons (C, quantified in D; n = 18–22 motor neurons from 3 animals per genotype) and rescued layer V astrogliosis (E, quantified in F; n = 12 sections from 3 animals per genotype) in P130 Prp-TDPA315T/+ female mice. (G and H) Western blots of various forms of TDP-43 in fractions of female mouse spinal cords at P200 (G). Quantification of TDP-43 species shows levels of insoluble TDP-43 (sarkosyl and urea fractions) were significantly reduced with 50% genetic reduction of Nlk (H) (TDP-Tg, n = 5 animals; TDP-Tg/Nlk, n = 4 animals). Note that TDP-43A315T/+ protein is Flag tagged at the N-terminal end. Two-tailed t tests (B and H) or 1-way ANOVA analyses (D and F) were performed to compare all listed genotypes/treatments unless otherwise noted, and data are represented as mean ± SEM. NTg, nontransgenic; Tg, transgenic. **P < 0.01; ***P < 0.001; ****P < 0.0001.