A toxic gain-of-function variant in MAPK8IP3 provides insights into JIP3 cellular roles
Wei Zhang, … , Konstantina Skourti-Stathaki, Stanley T. Crooke
Wei Zhang, … , Konstantina Skourti-Stathaki, Stanley T. Crooke
Published March 20, 2025
Citation Information: JCI Insight. 2025;10(8):e187199. https://doi.org/10.1172/jci.insight.187199.
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Research Article Cell biology Genetics Therapeutics

A toxic gain-of-function variant in MAPK8IP3 provides insights into JIP3 cellular roles

Abstract

Mitogen-activated protein kinase 8 interacting protein 3 (MAPK8IP3) gene encoding a protein called JIP3 is an adaption protein of the kinesin-1 complex known to play a role in axonal transport of cargo. Mutations in the gene have been linked to severe neurodevelopmental disorders, resulting in developmental delay, intellectual disability, ataxia, tremor, autism, seizures, and visual impairment. A patient who has a missense mutation in the MAPK8IP3 gene (c. 1714 C>T, Arg578Cys) (R578C) manifests dystonia, gross motor delay, and developmental delay. Here, we showed that the mutation was a toxic gain-of-function mutation that altered the interactome of JIP3; disrupted axonal transport of late endosomes; increased signaling via c-Jun N-terminal kinase, resulting in apoptosis; and disrupted dopamine receptor 1 signaling while not affecting dopamine receptor 2 signaling. Furthermore, in the presence of the mutant protein, we showed that an 80% reduction of mutant JIP3 and a 60% reduction of WT JIP3 by non-allele-selective phosphorothioate-modified antisense oligonucleotides was well tolerated by several types of cells in vitro. Our study identifies what we believe to be several important new roles for JIP3 and provides important insights for therapeutic approaches, including antisense oligonucleotide reduction of JIP3.

Authors

Wei Zhang, Swapnil Mittal, Ria Thomas, Anahid Foroughishafiei, Ricardo Nunes Bastos, Wendy K. Chung, Konstantina Skourti-Stathaki, Stanley T. Crooke

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Figure 3

MT-JIP3 induces JNK signaling, disrupts cargo endosome mobility, and causes accumulation of viscosities, thereby increasing risk of death in patient iPSC–derived neurons.

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MT-JIP3 induces JNK signaling, disrupts cargo endosome mobility, and cau...
(A) mRNA levels of MAPK8IP3 (JIP3) and SPAG9 (JIP4) either in patient iPSCs or iPSC derived neurons were detected by qPCR. n =3. (B) JIP3, JIP4, p-JNK, total JNK, and βIII-tubulin protein levels either in CRISPR control or patient iPSC–derived neurons measured by Western blot. GAPDH was used as a loading control. (C) CRISPR control and patient iPSC–derived neurons cultured in 96 wells for 6 days after DIV14 (14 days in vitro). Cell culture medium was replaced every 2 days. Cell viability was measured by trypan blue cell count assay. n = 3, ***P < 0.001. (D) CRISPR control and patient iPSC–derived neurons were fixed and stained with anti-JIP3 antibody. Viscosities in long axons were detected by STORM with different magnifications. Representative viscosities were pointed out by white arrows. Scale bar: 10 μm (left); 1 μm (right). (E) Cell imaging of iPSC-derived neurons incubated with 1 μM Cy3-PS-ASO for 2 hours. Colocalization of Cy3-PS-ASO (light blue) and Rab7 (late endosome [LE] marker) (red) axons were observed by STORM on ONI Nanoimager. Representative colocalization sites (white) were pointed out by yellow arrows. Scale bar: 10 μm (left); 1 μm (right). (F) Colocalization of JIP3 and KIF5B either in CRISPR control or patient iPSC–derived neurons observed by STORM. Representative colocalization sites (yellow) are indicated by yellow arrows. Scale bar: 10 μm (left); 1 μm (right). (G) Cell imaging of lysosomes (LAMP1, a lysosome marker) either in CRISPR control or patient iPSC–derived neurons observed with a Keyence BZ-X800 microscope. The average distance between lysosome clusters to the center of nucleus in cells was measured by BZ-X800 analyzer software with the 3D model analysis function. Scale bar: 10 μm. CRISPR iPSC–derived neurons, n = 14; patient iPSC–derived neurons, n = 13. Unpaired t test.