2019
DOI: 10.1083/jcb.201805128
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FIGNL1 associates with KIF1Bβ and BICD1 to restrict dynein transport velocity during axon navigation

Abstract: Neuronal connectivity relies on molecular motor-based axonal transport of diverse cargoes. Yet the precise players and regulatory mechanisms orchestrating such trafficking events remain largely unknown. We here report the ATPase Fignl1 as a novel regulator of bidirectional transport during axon navigation. Using a yeast two-hybrid screen and coimmunoprecipitation assays, we showed that Fignl1 binds the kinesin Kif1bβ and the dynein/dynactin adaptor Bicaudal D-1 (Bicd1) in a molecular complex including the dyna… Show more

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Cited by 9 publications
(12 citation statements)
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“…We discovered that IGF1R inhibition significantly influenced the cellular levels of BICD1, suggesting that changes in BICD1 levels may be the mechanism that underlies the changes in velocity we observed. This is in line with a recent study highlighting the importance of BICD1 in regulating axonal cargo transport . The change in BICD1 levels was driven by newly synthesized axonal BICD1 and occurred within a compatible time frame.…”
Section: Discussionsupporting
confidence: 92%
“…We discovered that IGF1R inhibition significantly influenced the cellular levels of BICD1, suggesting that changes in BICD1 levels may be the mechanism that underlies the changes in velocity we observed. This is in line with a recent study highlighting the importance of BICD1 in regulating axonal cargo transport . The change in BICD1 levels was driven by newly synthesized axonal BICD1 and occurred within a compatible time frame.…”
Section: Discussionsupporting
confidence: 92%
“…The hemisegments with defasciculated axons were classified as stalled RoP axons. Similar defects in RoP-like secondary motor neurons have been reported to occur due to depletion of Kif1b and Fidgetin like-1 in zebrafish (Fassier et al, 2018;Atkins et al, 2019). However, 46.95% of hemisegments had no RoP innervation altogether and were classified as RoP absent.…”
Section: Rostral Primary (Rop) Motor Neuron Development Is Compromised In Fmn2b Mutantssupporting
confidence: 68%
“…In 60 hpf fmn2b mutants, the side branches of RoP motor neurons innervating the horizontal myoseptum were either not detected (46% embryos) or appeared to be stalled at the choice point (44% embryos), i.e., the horizontal myoseptum (Figure 5). RoP-like secondary motor neurons, which follow the same trajectory as RoP primary motor neurons have previously been shown to have pathfinding and stalling defects at the horizontal myoseptum in Fidgetin like-1 and Kif1b mutants (Fassier et al, 2018;Atkins et al, 2019). Similarly, the stalled RoP axons appear defasciculated in 60 hpf fmn2b mutants One of the factors contributing to RoP outgrowth defects leading to the absence of RoP innervation in fmn2b mutants could be the lack of RoP soma as seen in hpf mutant embryos.…”
Section: Loss Of Fmn2b Had Pleiotropic Effects On the Development Of The Rop Motor Neuronmentioning
confidence: 91%
“…zebrafish and Xenopus models) have allowed several groups to overcome the above-mentioned limitations. This has contributed to provide novel pieces of information regarding the regulation of MT functions in axon guidance and targeting [22,[24][25][26][72][73][74].…”
Section: Ii1 Instructive Role Of Microtubules In Growth Cone Steeringmentioning
confidence: 99%