Stephen J. Susalka scite author profile

Cytoplasmic dynein is a large multisubunit motor protein that moves various cargoes toward the minus ends of microtubules. In addition to the previously identified heavy, intermediate, and light intermediate chains, it has recently been recognized that cytoplasmic dynein also has several light chain subunits with apparent molecular weights between 8-20 kDa. To systematically identify the light chains of purified rat brain cytoplasmic dynein, peptide sequences were obtained from each light chain band resolved by gel electrophoresis. Both members of the tctex1 light chain family, tctex1 and rp3, were identified in a single band. Only one member of the roadblock family, roadblock-2, was found. Two members of the LC8 family were resolved as separate bands, the previously identified LC8 subunit, and a second novel cytoplasmic dynein family member, LC8b. The tissue distribution of these two dynein LC8 subunits differed, although LC8b was the major family member in brain. Database searches found that both LC8a and LC8b were also present in several mammalian species, and a third mammalian LC8 sequence, LC8c was found in the human database. The amino acid sequences of both LC8a and LC8b were completely conserved in mammals. LC8a and LC8b differ in only six of the 89 amino acids. The amino acid differences between LC8a and LC8b were located near the N-terminus of the molecules, and most were in the outward facing alpha-helices of the LC8 dimer. When the mammalian LC8a sequence was compared to the LC8 sequences found in six other animal species including Xenopus and Drosophila, there was, on average, 94% sequence identity. More variation was found in LC8 sequences obtained from plants, fungi, and parasites. LC8c differed from the other two human LC8 sequences in that it has amino acid substitutions in the intermediate chain binding domain at the C-terminal of the molecule. The position of amino acid substitutions of the three mammalian LC8 family members is consistent with the hypothesis that they bind to different proteins.

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Distinct cytoplasmic dynein complexes are transported by different mechanisms in axons

Susalka

Hancock

Pfister

2000

Biochimica et Biophysica Acta (BBA) - Molecular Cell Research

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In neurons, cytoplasmic dynein is synthesized in the cell body, but its function is to move cargo from the axon back to the cell body. Dynein must therefore be delivered to the axon and its motor activity must be regulated during axonal transport. Cytoplasmic dynein is a large protein complex composed of a number of different subunits. The dynein heavy chains contain the motor domains and the intermediate chains are involved in binding the complex to cargo. Five different intermediate chain polypeptides, which are the result of the alternative splicing of the two intermediate chain genes, have been identified. We have characterized two distinct pools of dynein that are transported from the cell body along the axon by different mechanisms. One pool, which contains the ubiquitous intermediate chain, is associated with the membranous organelles transported by kinesin in the fast transport component. The other pool, which contains the other developmentally regulated intermediate chains, is transported in slow component b. The mechanism of dynein regulation will therefore depend on which pool of dynein is recruited to function as the retrograde motor. In addition, the properties of the large pool of dynein associated with actin in slow component b are consistent with the hypothesis that this dynein may be the motor for microtubule transport in the axon.

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Susalka

Pfister

2000

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The formation and maintenance of neuronal synapses is dependent on the active transport of material between the cell body and the axon terminal. Cytoplasmic dynein is one motor for microtubule-based axonal transport. Two pools of cytoplasmic dynein have been identified in the axon. They are distinguished by their intermediate and light intermediate chain subunits. Each pool is transported at different rates down the axon in association with different proteins or organelles. This review presents several models to discuss the potential functional roles of these different pools of cytoplasmic dynein during axonal transport.

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