Disruption of CFAP418 interaction with lipids causes widespread abnormal membrane-associated cellular processes in retinal degenerations
Anna M. Clark, Dongmei Yu, Grace Neiswanger, Daniel Zhu, Junhuang Zou, J. Alan Maschek, Thomas Burgoyne, Jun Yang
Anna M. Clark, Dongmei Yu, Grace Neiswanger, Daniel Zhu, Junhuang Zou, J. Alan Maschek, Thomas Burgoyne, Jun Yang
View: Text | PDF
Research Article Cell biology Ophthalmology

Disruption of CFAP418 interaction with lipids causes widespread abnormal membrane-associated cellular processes in retinal degenerations

Abstract

Syndromic ciliopathies and retinal degenerations are large heterogeneous groups of genetic diseases. Pathogenic variants in the CFAP418 gene may cause both disorders, and its protein sequence is evolutionarily conserved. However, the disease mechanism underlying CFAP418 mutations has not been explored. Here, we apply quantitative lipidomic, proteomic, and phosphoproteomic profiling and affinity purification coupled with mass spectrometry to address the molecular function of CFAP418 in the retina. We show that CFAP418 protein binds to the lipid metabolism precursor phosphatidic acid (PA) and mitochondrion-specific lipid cardiolipin but does not form a tight and static complex with proteins. Loss of Cfap418 in mice disturbs membrane lipid homeostasis and membrane-protein associations, which subsequently causes mitochondrial defects and membrane-remodeling abnormalities across multiple vesicular trafficking pathways in photoreceptors, especially the endosomal sorting complexes required for transport (ESCRT) pathway. Ablation of Cfap418 also increases the activity of PA-binding protein kinase Cα in the retina. Overall, our results indicate that membrane lipid imbalance is a pathological mechanism underlying syndromic ciliopathies and retinal degenerations which is associated with other known causative genes of these diseases.

Authors

Anna M. Clark, Dongmei Yu, Grace Neiswanger, Daniel Zhu, Junhuang Zou, J. Alan Maschek, Thomas Burgoyne, Jun Yang

×

Figure 7

CFAP418 interacts transiently with RAB28 in retinas.

Options: View larger image (or click on image) Download as PowerPoint
CFAP418 interacts transiently with RAB28 in retinas. (A) Overlap of prot...
(A) Overlap of proteins identified from 5 AP-MS experiments using a CFAP418 antibody and mouse retinas at P30. (B) Overlap of proteins identified from 2 AP-MS experiments using CFAP418 recombinant proteins and adult bovine retinas. (C) Overlap of potential CFAP418-interacting proteins identified from mouse and bovine retinas. (D) RAB28 was coimmunoprecipitated with CFAP418 from mouse retinas at 1 month of age. (E) mCherry-RAB28 proteins, but not mCherry, pulled down a small fraction of FLAG-CFAP418 in HEK293 cells. Note that FLAG-CFAP418 was only seen in the overexposed immunoblot. (F) FLAG-CFAP418 was colocalized with mCherry-RAB28 but not with mCherry. Framed regions are amplified and shown on the right. Scale bars: 10 mm. (G) The Pearson’s correlation coefficients (PCCs) of FLAG-CFAP418 with mCherry-RAB28 WT, T26N, Q72L, and mCherry alone. Data are represented as individual cells, mean, and SEM. **P < 0.01 (1-way ANOVA with Tukey’s multiple-comparison test). See complete unedited blots in the supplemental material.