Enterovirus D68 2A protease causes nuclear pore complex dysfunction and motor neuron toxicity

Katrina M Zinn
Mathew W McLaren
Michael T Imai
Malavika M Jayaram
Jeffrey D Rothstein
Matthew J Elrick author has email address

Hugo W. Moser Research Institute, Michael V. Johnston Center for Developmental Neuroscience, Kennedy Krieger Institute, Baltimore, United States
Department of Neurology, Johns Hopkins School of Medicine, Baltimore, United States

https://doi.org/10.7554/eLife.108672.1

Open access
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Figures and data

Enterovirus D68 proteases cleave several nucleoporins.

(A) HEK cells were transfected with Enterovirus D68 2A^pro, Poliovirus 1 2A^pro, or empty vector control, and the indicated nucleoporins were quantified by western blot, normalized to control=100%. EIF4G was included as a non-nucleoporin positive control. Mean ± S.D. of 3 independent replicates. Statistical comparison was by multiple t-tests of the EV-D68 2Apro vs control, with multiple comparisons correction by the false discovery rate method. Red asterisks represent significance with FDR<10%, blue asterisks represent samples for which a cleavage product was visible on the Western blot irrespective of significance. (B) As in A, except transfecting with 3C^pro. The positive control was SNAP29. (C) Nuclear lysates from HEK cells were incubated at 37°C with recombinant EV-D68 2A^pro at a ratio of 1:50 (protease:lysate by mass) for the indicated time. Grey bars represent lysate incubated for 4 hours at 37°C in the absence of protease as a negative control. Mean ± S.D. of 3 independent replicates. Statistical comparison was by t-test between the with- and without-protease samples at 4 hours. (D) As in C, except with EV-D68 3C^pro at a ratio of 1:200. *p<0.05, **p<0.01, ***p<0.001.

Enterovirus D68 2A protease impairs nucleocytoplasmic transport of protein cargoes and disrupts the nuclear pore complex permeability barrier.

(A) tdTomato reporter assay showing nuclear-cytoplasmic ratios at steady state 20 hours after transfection of IRES-GFP, IRES-GFP-2A^pro, or IRES-GFP-3C^pro. Mean values of three independent replicates n=29,404 GFP+ cells in total, error bars are S.D. Statistical comparison was by two-way ANOVA with Šídák’s multiple comparisons test. (B) Example output of image analysis protocol. In the overlay image, yellow represents the nuclei of transfected cells, defined by the area of expression of H2A-iRFP670 in GFP+ cells only. The surrounding dark blue ring is the perinuclear cytoplasm. The intensity of reporter construct was measured in the red channel and reported as a ratio of nuclear to perinuclear cytoplasmic signal. (C) Example images from A. Dotted outlines mark the nuclei. (D) Kinetics of nuclear import (left) and export (right) measured by photoinducible LINus and LEXY reporter assays, respectively, in HeLa cells 20 hours after transfection with IRES-GFP, IRES-GFP-2A^pro, or IRES-GFP-3C^pro. Mean values of 3 biologically independent replicates, n=999 GFP+ cells for LINus and 1059 for LEXY in total. Error bars are S.E.M. Statistical comparison was by two-way ANOVA. (E) Example images from D. Dotted outlines mark GFP+ cells. (F) Dextran exclusion assay was performed in HeLa cells 15 hours after transfection with IRES-iRFP670-H2A, IRES-iRFP670-H2A-(2A)-2A^pro, or IRES-iRFP670-H2A-(2A)-3C^pro. n=45-46 cells per group pooled from 3 biologically independent replicates. Statistical comparison was by two-way ANOVA. (H) Propidium iodide viability assay. Mean values of 3 independent replicates, n=8042 cells in total. Error bars are S.D. Statistical comparison was by one-way ANOVA with Tukey’s multiple comparison test.

Enterovirus D68 proteases do not significantly alter RNA export.

(A) Steady state mRNA levels were measured by Poly-A FISH in HeLa cells 20 hours after transfection with IRES-GFP, IRES-GFP-2A^pro, or IRES-GFP-3C^pro. Data in the main panel represent the mean ± S.D. of four independent replicates, n=55,177 GFP+ cells in total. Statistical comparison was by one-way ANOVA with Šídák’s multiple comparisons test. (B) Nuclear export of EU-labeled RNAs by 1hr pulse followed by 0-8hr chase. EU labeling began 20hr after transfection with IRES-GFP, IRES-GFP-2A^pro, or IRES-GFP-3C^pro. Pulse labeling of total RNA or primarily the products of the listed RNA polymerases was performed in the presence of pairs of combinations of actinomycin D, α-amanitin, and CAS 577784-91-9 as described in Materials and Methods. Data represent the mean ± S.E.M. of three independent replicates. n=253,015 GFP+ cells analyzed in total. Statistical comparison was by two-way ANOVA.

2A^pro-dependent nucleocytoplasmic transport deficits and toxicity during Enterovirus D68 infection of human induced pluripotent stem cell-derived spinal motor neurons.

(A) NLS-tdTomato reporter assay in RD cells showing nuclear-cytoplasmic ratios 24 hours after mock infection or infection with EV-D68 US/MO/2014-18947. Telaprevir was added following infection at the indicated concentrations. Data are mean of three independent replicates, n=11,847 cells in total. (B) As in A, except with tdTomato-NES reporter, n=8941 cells in total. (C) NLS-tdTomato reporter assay in diMN showing nuclear-cytoplasmic ratios 24 hours after mock infection or infection with EV-D68 US/MO/2014-18947, treated concurrently with DMSO or 3µM telaprevir. Means of three replicates from independent iPSC lines. n=3388 cells in total. (D) As in C, except with tdTomato-NES reporter, n=3371 cells in total. (E) Survival of diMNs following infection with EV-D68 at MOI 5 in the presence of varying concentrations of telaprevir or DMSO control. Infections were performed with US/MO/14-18947 or US/MD/2018-23209, using diMNs generated from four independent iPSC lines for each virus. n=15,558 cells counted across the 8 replicates. (F) Representative images of diMNs from the experiment presented in panel A. Note fragmentation of neurites and loss of cell body shape signifying cell death following EV-D68 infection, and relative preservation following treatment with 3µM telaprevir. (G) Growth curve of EV-D68 in the presence of varying concentrations of telaprevir or DMSO control. Infections were performed with US/MO/14-18947 or US/MD/2018-23209 at MOI 0.5, using diMNs generated from three independent iPSC lines for each virus. Error bars are SEM. Statistical comparisons were by two-way ANOVA with Dunnet’s multiple comparisons test between DMSO and telaprevir-treated groups. *p<0.05, **p<0.01.

Western blots demonstrating evidence of 2A^pro and 3C^pro protease activity on well-established substrates following transfection with each of the expression vectors used in this study.

Source data for Figure 2A, showing individual cell level data for three independent replicates.

Bars are mean ± S.D.

Source data for Figure 2D, showing mean ± S.D. values from three independent replicates for LINus (A) and LEXY (C) nucleocytoplasmic transport reporters.

Individual cell level data is also presented at t=10 min for LINus (B) and LEXY (D). Bars are mean ± S.D.

Source data for Figure 3A, demonstrating individual cell-level data across four independent replicates.

Bars are mean ± S.D.

Source data for figures 4C (A) and 4D (B), showing individual cell-level data for three independent replicates in diMNs derived from iPSC lines CS0002, CS0003, and CS88.

Bars are mean ± S.D.

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