Search engine for discovering works of Art, research articles, and books related to Art and Culture
Javascript must be enabled to continue!
WDR60-mediated dynein-2 loading into cilia powers retrograde IFT and transition zone crossing
View through CrossRef
ABSTRACT
The dynein-2 motor complex drives retrograde intraflagellar transport (IFT), playing a pivotal role in the assembly and functions of cilia. However, the mechanisms that regulate dynein-2 motility remain poorly understood. Here, we identify the
Caenorhabditis elegans
WDR60 homolog (WDR-60) and dissect the roles of this intermediate chain using genome editing and live imaging of endogenous dynein-2/IFT components. We find that loss of WDR-60 impairs dynein-2 recruitment to cilia and its incorporation onto anterograde IFT trains, reducing the availability of the retrograde motor at the ciliary tip. Consistently, we show that less dynein-2 motors power WDR-60-deficient retrograde IFT trains, which move at reduced velocities and fail to exit cilia, accumulating on the distal side of the transition zone. Remarkably, disrupting the transition zone’s NPHP module almost fully restores ciliary exit of underpowered retrograde trains in
wdr-60
mutants. This work establishes WDR-60 as a major contributor to IFT and the NPHP module as a roadblock to dynein-2 passage through the transition zone.
Title: WDR60-mediated dynein-2 loading into cilia powers retrograde IFT and transition zone crossing
Description:
ABSTRACT
The dynein-2 motor complex drives retrograde intraflagellar transport (IFT), playing a pivotal role in the assembly and functions of cilia.
However, the mechanisms that regulate dynein-2 motility remain poorly understood.
Here, we identify the
Caenorhabditis elegans
WDR60 homolog (WDR-60) and dissect the roles of this intermediate chain using genome editing and live imaging of endogenous dynein-2/IFT components.
We find that loss of WDR-60 impairs dynein-2 recruitment to cilia and its incorporation onto anterograde IFT trains, reducing the availability of the retrograde motor at the ciliary tip.
Consistently, we show that less dynein-2 motors power WDR-60-deficient retrograde IFT trains, which move at reduced velocities and fail to exit cilia, accumulating on the distal side of the transition zone.
Remarkably, disrupting the transition zone’s NPHP module almost fully restores ciliary exit of underpowered retrograde trains in
wdr-60
mutants.
This work establishes WDR-60 as a major contributor to IFT and the NPHP module as a roadblock to dynein-2 passage through the transition zone.
Related Results
WDR60-mediated dynein-2 loading into cilia powers retrograde IFT and transition zone crossing
WDR60-mediated dynein-2 loading into cilia powers retrograde IFT and transition zone crossing
The dynein-2 motor complex drives retrograde intraflagellar transport (IFT), playing a pivotal role in the assembly and functions of cilia. However, the mechanisms that regulate dy...
Primary cilia utilize glycoprotein-dependent adhesion mechanisms to stabilize long-lasting cilia-cilia contacts
Primary cilia utilize glycoprotein-dependent adhesion mechanisms to stabilize long-lasting cilia-cilia contacts
Abstract
Background
The central tenet of cilia function is sensing and transmitting information. The capacity to directly contact extracellular s...
Dynein-2 requires HSP90 chaperone activity to ensure robust retrograde IFT and ciliogenesis
Dynein-2 requires HSP90 chaperone activity to ensure robust retrograde IFT and ciliogenesis
ABSTRACT
The microtubule motor dynein-2 is responsible for retrograde intraflagellar transport (IFT), a process crucial for cilia assembly and cilium-dependent si...
IFT-A Structure Reveals Carriages for Membrane Protein Transport into Cilia
IFT-A Structure Reveals Carriages for Membrane Protein Transport into Cilia
ABSTRACT
Intraflagellar transport (IFT) trains are molecular machines that traffic proteins between cilia and the cell body. With a molecular weight over 80 MDa, ea...
Microtubule crossbridging by Chlamydomonas dynein
Microtubule crossbridging by Chlamydomonas dynein
AbstractDynein, obtained from axonemes of Chlamydomonas, binds by both its A and B ends to microtubules assembled from twice cycled (2 ×) and purified (6S) brain tubulin as well as...
IFT cargo and motors associate sequentially with IFT trains to enter cilia
IFT cargo and motors associate sequentially with IFT trains to enter cilia
Summary
Intraflagellar transport (IFT) orchestrates entry of proteins into primary cilia. At the ciliary base, assembled IFT trains, driven by ki...
Matching variants for functional characterization of genetic variants
Matching variants for functional characterization of genetic variants
Abstract
Rapid and low-cost sequencing, as well as computer analysis, have facilitated the diagnosis of many genetic diseases, resulting in a substantial rise in ...
Matching Variants for functional characterization of genetic variants
Matching Variants for functional characterization of genetic variants
Abstract
Rapid and low-cost sequencing, as well as computer analysis, have facilitated the diagnosis of many genetic diseases, resulting in a sub...