Dynein – Motor Protein, Function and Disease
Dynein is a molecular motor protein complex found in human cells that transports cargo along microtubules and plays a central role in cell division and ciliary function.
Wissenswertes über "Dynein"
Dynein is a molecular motor protein complex found in human cells that transports cargo along microtubules and plays a central role in cell division and ciliary function.
What is Dynein?
Dynein is a molecular motor protein present in virtually all eukaryotic cells. It belongs to the family of cytoskeletal motor proteins and moves along microtubules – tube-shaped protein structures that form part of the cellular skeleton. Dynein transports a wide variety of cargo within the cell and is involved in fundamental biological processes, including cell division, intracellular transport, and the movement of cilia and flagella.
Types of Dynein
Cytoplasmic Dynein
Cytoplasmic dynein is found throughout the cell interior and is primarily responsible for retrograde axonal transport – meaning it carries vesicles, organelles, and signaling molecules from the cell periphery toward the nucleus (toward the minus end of microtubules). It also plays an important role in nuclear positioning and organization of the mitotic spindle during cell division.
Axonemal Dynein
Axonemal dynein is located within cilia and flagella. It drives the movement of these hair-like cellular extensions by powering the sliding of microtubule doublets within the axoneme. This enables the beating of cilia, for example in the respiratory tract where they help clear mucus and foreign particles.
Mechanism of Action
Dynein is an ATP-dependent motor protein: it uses energy released by the hydrolysis of adenosine triphosphate (ATP) to perform mechanical work. The dynein complex consists of heavy chains, which carry the motor ATPase activity, along with intermediate and light chains involved in regulation and cargo binding. Movement proceeds stepwise along microtubules toward their minus end.
Dynein frequently works in cooperation with the cofactor complex dynactin, which stabilizes and regulates the binding of dynein to its cargo and to microtubules.
Biological Functions
- Intracellular transport: Movement of vesicles, mitochondria, and other organelles within the cell
- Axonal transport: Retrograde transport of signaling molecules and spent membrane components in neurons
- Cell division: Contribution to correct chromosome alignment and mitotic spindle organization
- Ciliary movement: Powering ciliary beating in the airways, reproductive organs, and during embryonic development
- Nuclear positioning: Anchoring and repositioning of the cell nucleus
Clinical Relevance and Associated Diseases
Defects in dynein genes or associated proteins can cause serious diseases:
Primary Ciliary Dyskinesia (PCD)
Mutations in genes encoding axonemal dynein lead to Primary Ciliary Dyskinesia (PCD). In this rare inherited condition, cilia are non-functional or move abnormally. Affected individuals frequently experience chronic respiratory infections, bronchiectasis, reduced fertility, and – in about half of cases – a mirror-image arrangement of internal organs known as situs inversus.
Neurodegeneration
Disruption of axonal transport due to dynein defects has been linked to neurodegenerative diseases including Amyotrophic Lateral Sclerosis (ALS), Huntington disease, and other motor neuropathies. Impaired retrograde transport can allow neurotoxic substances to accumulate or prevent survival signals from reaching the nucleus.
Cancer
Alterations in the expression or function of dynein components have been described in various cancers and may affect cell division and chromosomal stability.
Research and Therapeutic Perspectives
Because dynein plays a central role in many cellular processes, it is an active area of research. Scientists are investigating how dynein modulators might be developed as potential therapeutics for neurodegenerative diseases or ciliopathies. Dynein is also gaining attention as a target in cancer research.
References
- Vallee RB, Williams JC, Varma D, Barnhart LE. Dynein: An ancient motor protein involved in multiple modes of transport. Journal of Neurobiology. 2004;58(2):189-200.
- Hirokawa N, Noda Y, Tanaka Y, Niwa S. Kinesin superfamily motor proteins and intracellular transport. Nature Reviews Molecular Cell Biology. 2009;10(10):682-696.
- Kurkowiak M, Zietkiewicz E, Witt M. Recent advances in primary ciliary dyskinesia genetics. Journal of Medical Genetics. 2015;52(1):1-9.
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Related search terms: Dynein + Dyneins + Dynein complex