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Slow Axonal Transport of Soluble Actin with Actin Depolymerizing Factor, Cofilin, and Profilin Suggests Actin Moves in an Unassembled Form (1996)

Mills, Roland G. ; Minamide, Laurie S. ; Yuan, Aidong ; [et al.]

Oxford, UK : Blackwell Science Ltd

Journal of neurochemistry 67 (1996), S. 0

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ISSN: 1471-4159

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Medicine

Notes: Abstract: We examined the axonal transport of actin and its monomer binding proteins, actin depolymerizing factor, cofilin, and profilin, in the chicken sciatic nerve following injection of [35S]methionine into the lumbar spinal cord. At intervals up to 20 days after injection, nerves were cut into 1-cm segments and separated into Triton X-100-soluble and particulate fractions. Actin and its binding proteins were then isolated by affinity chromatography on DNase I-Sepharose and by one- and two-dimensional polyacrylamide gel electrophoresis. Fluorographic analysis showed that the specific activity of soluble actin was two to three times that of its particulate form and that soluble actin, cofilin, actin depolymerizing factor, and profilin were transported at similar rates in slow component b of axonal flow. Our data strongly support the view that the mobile form of actin in slow transport is soluble and that a substantial amount of this actin may travel as a complex with actin depolymerizing factor, cofilin, and profilin. Along labeled nerves the specific activity of the unphosphorylated form of actin depolymerizing factor, which binds actin, was not significantly different from that of its “inactive” phosphorylated form. This constancy in specific activity suggests that continuous inactivation and reactivation of actin depolymerizing factor occur during transport, which could contribute to the exchange of soluble actin with the filamentous actin pool.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1046/j.1471-4159.1996.67031225.x

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Actin Depolymerizing Factor Is a Component of Slow Axonal Transport (1992)

Bray, John J. ; Fernyhough, Paul ; Bamburg, James R. ; [et al.]

Oxford, UK : Blackwell Publishing Ltd

Journal of neurochemistry 58 (1992), S. 0

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ISSN: 1471-4159

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Medicine

Notes: Abstract: We examined the low molecular weight proteins transported with actin in the chicken sciatic nerve after injection of [35S]methionine into the lumbar spinal cord. A prominent component of slow axonal transport with apparent molecular mass 19 kDa comigrated on two-dimensional gels with chicken actin depolymerizing factor (ADF), previously shown to be a major actin-binding protein in brain. There was comparatively little radioactivity associated with the actin monomer sequestering proteins, profilin or cofilin, and examination of the rapid component of axonal transport failed to reveal appreciable quantities of actin, ADF, profilin, or cofilin. These results show that both actin and ADF are carried by slow axonal transport and raise the possibility that actin travels within the axon in an unpolymerized form in a complex with ADF.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.1471-4159.1992.tb10949.x

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Transport complexes associated with slow axonal flow (1991)

Bray, John J. ; Mills, Roland G.

Springer

Neurochemical research 16 (1991), S. 645-649

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ISSN: 1573-6903

Keywords: Slow axonal transport ; cytoskeleton ; neurofilament polypeptides ; tubulin actin ; actin-depolymerizing factor

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Cytoskeletal proteins-neurofilament polypeptides, tubulin and actin-are transported along axons by slow transport. How or in what form they are transported is not known. One hypothesis is that they are assembled into the cytoskeleton at the cell body and transported as intact polymers down the axon. However, recent radiolabeling and photobleaching studies have shown that tubulin and actin exist in both a mobile phase and a stationary phase in the axon. Consequently, it is more likely that cytoskeletal proteins move along the axon in some form of transport complex and are assembled into a cytoskeleton which is stationary. In this overview we discuss these topics and consider the evidence for the existence of transport complexes associated with slow axonal flow. Such evidence includes the slow transport of particulate complexes containing tubulin and neurofilament polypeptides along reconstituted microtubules in vitro, and the coordinate slow transport of actin with actin-binding in vivo.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00965550

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Cotransport of Glyceraldehyde-3-Phosphate Dehydrogenase and Actin in Axons of Chicken Motoneurons (1999)

Yuan, Aidong ; Mills, Roland G. ; Bamburg, James R. ; [et al.]

Springer

Cellular and molecular neurobiology 19 (1999), S. 733-744

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ISSN: 1573-6830

Keywords: glyceraldehyde-3-phosphate dehydrogenase ; glycolytic enzyme ; actin ; actin monomer binding proteins ; slow axonal transport

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract 1.To study proteins transported with actin in axons, we pulse-labeled motoneurons in the chicken sciatic nerve with [35S]methionine and, 1–20 days later, isolated actin and its binding proteins by affinity chromatography of Triton soluble nerve extracts on DNase I–Sepharose. The DNase I-purified proteins were electrophoresed on two-dimensional gels and the specific activity of the radioactively labeled protein spots was estimated by fluorography. 2.In addition to actin, which binds specifically to DNase I, a small number of other proteins were labeled, including established actin monomer binding proteins and a protein of 36 kDa and pI 8.5. On the basis of its molecular mass, pI, amino acid composition, and immunostaining, the unrecognized protein was identified as the glycolytic enzyme glyceraldehyde-3-phosphate dehydrogenase (GAPDH). 3.The high-affinity binding of GAPDH to actin was confirmed by incubation of Triton-soluble nerve extracts with either mouse anti-GAPDH (or antiactin) and indirect immunomagnetic separation with Dynabeads covalently linked to sheep anti-mouse antibody. Analysis by one-dimensional gel electrophoresis and immunoblotting showed that actin and GAPDH were the main proteins isolated by these methods. 4.Analysis of labeled nerves at 12 and 20 days after pulse labeling showed that GAPDH and actin were transported at the same rate, i.e., 3–5 mm/day, which corresponds to slow component b of axonal transport. These proteins were not associated with rapidly transported proteins that accumulated proximal to a ligation 7 cm from the spinal cord 9 hr after injection of radioactivity. 5.Our results indicate that GAPDH and actin are transported as a complex in axons and raise the possibility that GAPDH could act as a chaperone for monomeric actin, translocating it to intraaxonal sites for exchange with or assembly into actin filaments. Alternatively, actin could be involved in translocating and anchoring GAPDH to specialized sites in axons and nerve terminals that require a source of ATP by glycolysis.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1006953022763

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Tubulin and Neurofilament Proteins Are Transported Differently in Axons of Chicken Motoneurons (2000)

Yuan, Aidong ; Mills, Roland G. ; Chia, Catherine P. ; [et al.]

Springer

Cellular and molecular neurobiology 20 (2000), S. 623-632

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ISSN: 1573-6830

Keywords: tubulin ; neurofilament ; actin ; cytoskeletal protein ; slow axonal transport

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract SUMMARY 1. We previously showed that actin is transported in an unassembled form with its associated proteins actin depolymerizing factor, cofilin, and profilin. Here we examine the specific activities of radioactively labeled tubulin and neurofilament proteins in subcellular fractions of the chicken sciatic nerve following injection of L-[35S]methionine into the lumbar spinal cord. 2. At intervals of 12 and 20 days after injection, nerves were cut into 1-cm segments and separated into Triton X-100-soluble and particulate fractions. Analysis of the fractions by high-resolution two-dimensional gel electrophoresis, immunoblotting, fluorography, and computer densitometry showed that tubulin was transported as a unimodal wave at a slower average rate (2–2.5 mm/day) than actin (4–5 mm/day). Moreover, the specific activity of soluble tubulin was five times that of its particulate form, indicating that tubulin is transported in a dimeric or small oligomeric form and is assembled into stationary microtubules. 3. Neurofilament triplet proteins were detected only in the particulate fractions and transported at a slower average rate (1 mm/day) than either actin or tubulin. 4. Our results indicate that the tubulin was transported in an unpolymerized form and that the neurofilament proteins were transported in an insoluble, presumably polymerized form.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1007090422866

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