Inefficient recruitment of kinesin-1 to melanosomes precludes it from facilitating their transport

Microtubules and F-actin, and their associated motor proteins, are considered to play complementary roles in long- and short-range organelle transport. However, there is growing appreciation that myosin/F-actin networks can drive long-range transport. In melanocytes, myosin-Va and kinesin-1 have bot...

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Veröffentlicht in:	Journal of cell science 2017-06, Vol.130 (12), p.2056-2065
Hauptverfasser:	Robinson, Christopher L, Evans, Richard D, Briggs, Deborah A, Ramalho, Jose S, Hume, Alistair N
Format:	Artikel
Sprache:	eng
Schlagworte:	Actin Actins - metabolism Animals Auditory defects Biological Transport Chimeras Clustering Confocal microscopy Dendrites Dyneins - metabolism Fractionation Gene Knockdown Techniques Humans Kinesin Kinesins - genetics Kinesins - metabolism Mammals Melanocytes Melanocytes - cytology Melanocytes - metabolism Melanosomes Melanosomes - metabolism Mice Microscopy Microscopy, Confocal Microtubules Microtubules - metabolism Mitochondria - metabolism Mutants Myosin Myosin Type V - metabolism Myosins - metabolism Protein Binding Proteins rab1 GTP-Binding Proteins - metabolism Recruitment RNA, Small Interfering - metabolism siRNA Transport
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container_title	Journal of cell science
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creator	Robinson, Christopher L Evans, Richard D Briggs, Deborah A Ramalho, Jose S Hume, Alistair N
description	Microtubules and F-actin, and their associated motor proteins, are considered to play complementary roles in long- and short-range organelle transport. However, there is growing appreciation that myosin/F-actin networks can drive long-range transport. In melanocytes, myosin-Va and kinesin-1 have both been proposed as long-range centrifugal transporters moving melanosomes into the peripheral dendrites. Here, we investigated the role of kinesin-1 heavy chain (Kif5b) and its suggested targeting factor Rab1a in transport. We performed confocal microscopy and subcellular fractionation, but did not detect Kif5b or Rab1a on melanosomes. Meanwhile functional studies, using siRNA knockdown and dominant negative mutants, did not support a role for Kif5b or Rab1a in melanosome transport. To probe the potential of Kif5b to function in transport, we generated fusion proteins that target active Kif5b to melanosomes and tested their ability to rescue perinuclear clustering in myosin-Va-deficient cells. Expression of these chimeras, but not full-length Kif5b, dispersed melanosomes with similar efficiency to myosin-Va. Our data indicate that kinesin and microtubules can compensate for defects in myosin-Va and actin-based transport in mammals, but that endogenous Kif5b does not have an important role in transport of melanocytes due to its inefficient recruitment to melanosomes.
doi_str_mv	10.1242/jcs.186064
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However, there is growing appreciation that myosin/F-actin networks can drive long-range transport. In melanocytes, myosin-Va and kinesin-1 have both been proposed as long-range centrifugal transporters moving melanosomes into the peripheral dendrites. Here, we investigated the role of kinesin-1 heavy chain (Kif5b) and its suggested targeting factor Rab1a in transport. We performed confocal microscopy and subcellular fractionation, but did not detect Kif5b or Rab1a on melanosomes. Meanwhile functional studies, using siRNA knockdown and dominant negative mutants, did not support a role for Kif5b or Rab1a in melanosome transport. To probe the potential of Kif5b to function in transport, we generated fusion proteins that target active Kif5b to melanosomes and tested their ability to rescue perinuclear clustering in myosin-Va-deficient cells. Expression of these chimeras, but not full-length Kif5b, dispersed melanosomes with similar efficiency to myosin-Va. 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However, there is growing appreciation that myosin/F-actin networks can drive long-range transport. In melanocytes, myosin-Va and kinesin-1 have both been proposed as long-range centrifugal transporters moving melanosomes into the peripheral dendrites. Here, we investigated the role of kinesin-1 heavy chain (Kif5b) and its suggested targeting factor Rab1a in transport. We performed confocal microscopy and subcellular fractionation, but did not detect Kif5b or Rab1a on melanosomes. Meanwhile functional studies, using siRNA knockdown and dominant negative mutants, did not support a role for Kif5b or Rab1a in melanosome transport. To probe the potential of Kif5b to function in transport, we generated fusion proteins that target active Kif5b to melanosomes and tested their ability to rescue perinuclear clustering in myosin-Va-deficient cells. Expression of these chimeras, but not full-length Kif5b, dispersed melanosomes with similar efficiency to myosin-Va. Our data indicate that kinesin and microtubules can compensate for defects in myosin-Va and actin-based transport in mammals, but that endogenous Kif5b does not have an important role in transport of melanocytes due to its inefficient recruitment to melanosomes.</abstract><cop>England</cop><pub>The Company of Biologists Ltd</pub><pmid>28490438</pmid><doi>10.1242/jcs.186064</doi><tpages>10</tpages><orcidid>https://orcid.org/0000-0001-9443-1087</orcidid><orcidid>https://orcid.org/0000-0002-2682-1523</orcidid><oa>free_for_read</oa></addata></record>
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subjects	Actin Actins - metabolism Animals Auditory defects Biological Transport Chimeras Clustering Confocal microscopy Dendrites Dyneins - metabolism Fractionation Gene Knockdown Techniques Humans Kinesin Kinesins - genetics Kinesins - metabolism Mammals Melanocytes Melanocytes - cytology Melanocytes - metabolism Melanosomes Melanosomes - metabolism Mice Microscopy Microscopy, Confocal Microtubules Microtubules - metabolism Mitochondria - metabolism Mutants Myosin Myosin Type V - metabolism Myosins - metabolism Protein Binding Proteins rab1 GTP-Binding Proteins - metabolism Recruitment RNA, Small Interfering - metabolism siRNA Transport
title	Inefficient recruitment of kinesin-1 to melanosomes precludes it from facilitating their transport
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