02.12.10 Lecture 13 - Intermediate filaments. Intermediate filaments Present in nearly all animals, but absent from plants and fungi Rope-like network.

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Presentation transcript:

Lecture 13 - Intermediate filaments

Intermediate filaments Present in nearly all animals, but absent from plants and fungi Rope-like network of filaments in the cell Principle function is maintenance of cell structure - provide tensile strength to the cell

Intermediate filaments share a common structure

Intermediate filaments differ from actin & microtubules: I.F.s do not have a defined polarity (I.e. no plus or minus ends) I.F.s have no associated motor proteins I.F.s do not bind to nucleotides (ATP or GTP) I.F.s are very stable compared to actin or microtubules

There are 4 classes of intermediate filament proteins

Tissue-specific expression of I.F. proteins is useful for diagnostics Cancer cells - lose the characteristic shape of the parent tissue I.F. gene expression is often unaffected Identification of I.F. proteins in tumor biopsies using antibodies can pinpoint origin of tumors (I.e. neurofilaments in metastatic cells from brain cancers) Physicians tailor treatment to particular types of cancer

Keratin - the epithelial I.F.

Stratified squamous epithelium Stem cells in the interior Dead cells at outermost surface Keratin remains - hard, waterproof, resists abraisions Makes up hair, nails, skin, & feathers

Keratins form a strong network indirectly linked to neighboring cells

Desmosomes mediate cell-cell adhesion between epithelial cells attachment membranes Desmosomes are formed in specialized areas of cells - the cytoplasmic side contains tonofibrils that are anchored in a plaque of proteins. Cadherin molecules provide the cell - cell interactions.

Hemidesmosomes mediate cell-matrix adhesion between epithelial cells and basal lamina Hemidesmosomes connect epithelial cells to the basal lamina. The integrin  4 binds to proteins in the plaques and to laminin in the extracellular matrix.

Keratins allow sheets of cells to resist mechanical stresses

Disruption of keratin networks causes blistering

Vimentin/desmin - the I.Fs present in connective tissue and muscles

Vimentin is required for trans-epithelial migration Endothelial transmigration - white blood cells leave the bloodstream to combat infection Process is impaired in vimentin mutant mice

Desmin filaments maintain muscle structural integrity Desmin filaments are tethered to the Z disk and evelope the sarcomere Don’t participate in contraction, but maintain structural integrity Mutant mice have misaligned muscle fibers Mutations in human desmin causes muscle disorders

Neurofilaments - I.F.s present in neurons

Neurofilaments are important for nervous system function Unlike other I.F.s, they have side arms that project from the core filament Fill and pack the cytoplasm of neurons Neurons in KO mice make axons with smaller diameters Charcot-Marie-Tooth disease: neuropathy where PNS degenerates

Neurofilaments are important for nervous system function

Nuclear lamins are I.F.s present in the nuclei of all cells Nuclear lamins form a basket-like structure on inner side of nuclear membrane Protects structure of nucleus

Nuclear lamins disassemble when cells enter mitosis

I.F.s are extensively cross-linked to actin and microtubules Microtubule (red), vimentin (orange), plectin cross- linker (blue)