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Transfer of Lipids from One Compartment to Another

Transfer of Lipids from One Compartment to Another. Putative transport/transfer proteins: PC-TP GLTP StAR NPC1. Lipid movement into and out of cells. Why do lipids need transporters?. Enterohepatic circulation.

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Transfer of Lipids from One Compartment to Another

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  1. Transfer of Lipids from One Compartment to Another

  2. Putative transport/transfer proteins: PC-TP GLTP StAR NPC1

  3. Lipid movement into and out of cells Why do lipids need transporters?

  4. Enterohepatic circulation

  5. Made at surface of cells with appropriate receptors by remodeling VLDLs and chylomicrons Made in ER of intestinal and liver cells

  6. LCAT= lecithin cholesterol acyl tranferase CEPT = cholesteryl-ester transfer protein SR-BI = scavenger receptor, BI So why are LDLs “bad” and HDLs “good”?

  7. The anti-IgG will recognize the half of IgM molecule that does not undergo type switching during maturation. Because antibodies are bivalent, they can cross-link the cell surface immunoglobulins by binding a different cell surface IgM molecule to each of the two antigen binding sites. The cell responds, in turn, by redistributing the cross-linked cell surface immunoglobulins. (a) What are the distribution patterns of IgM on normal and antibody-treated cells.(b) What changes in distribution require metabolic energy from the cell, and what changes occur passively and are due only to the cross-linking. Metabolism is inhibited either by treatment with sodium azide or by incubation at 4oC. By treating cells with fixative before adding the fluorescent antibody, you can determine what the normal, unperturbed immunoglobulin localization is.

  8. control hot cold Cold azide Hot az

  9. Treatment 1 (immediate fixing with fixative): produces ring staining Treatment 2 (no treatment with chemicals; on ice): produces predominantly patching Treatment 3 (sodium azide on ice): produces predominantly patching Treatment 4 (no treatment with chemicals; 37°C): produces capping Treatment 5 (sodium azide at 37°C): produces predominantly patching

  10. Atherectomy

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