Vesicular Transport Flashcards
Vesicular transport
Sometimes cells need to transport unusual or large substances through the membrane for which there isn’t a specific carrier protein. Or it may need to store a substance prior to release to the ECF. To do this it needs a different sort of transport mechanism
VT 2
Materials are transferred between ECF and ICF
or between structures within cell in vesicles, small membranous sacs that form at or fuse with the cell membrane
Requires energy from ATP
Endocytosis:
vesicular transport into the cell
Exocytosis:
vesicular transport out of the cell
Vesicle formation:
- Trigger (ligand, presence of object, etc)
- Indentation of the membrane
- “Pouch” formed on membrane
- Neck of pouch sealed off
- Vesicle detached from the membrane
Endocytosis: Receptor-mediated endocytosis
Uptake of specific substances bound to membrane surface receptors …..collection of specific molecules 1. Substances attach to membrane receptors. 2. Membrane pockets inward. 3. Pocket pinches off as endocytic vesicle containing target molecule.
- Cell keeps membrane recycling and reuse receptors
Endocytosis: Pinocytosis
- “Cell drinking”- vesicle forms filled with ECF
- Similar process to receptor-mediated endocytosis but not as selective and not initiated by ligand binding
- Target seems to be general ECF contents
- Performed by most cells
Endocytosis: Phagocytosis
- Engulfs solid objects - may be as large as the cell itself
- Performed by specialised cells eg. macrophages
Vesicle (called phagosome)
fuses with lysosome>Lysosomal enzymes digest contents > Remains may be exocytosed
Scanning electron micrograph of white blood cell phagocytosing old red blood cell
Exocytosis
Functional reverse of endocytosis
- Vesicles are created in Endoplasmic Reticulum (ER) or Golgi apparatus within cell cytoplasm
- Basically four types of vesicles produced, only some of which are directly involved in exocytosis
Exocytosis
Four forms of vesicles:
Transfer vesicles - transfer enzymes between ER and Golgi apparatus and between saccules of Golgi apparatus
- Lysosomes - contain intracellular enzymes
- Secretory vesicles - allows cell to secrete products such as hormones
- Membrane renewal vesicles - contain new/recycled membrane components, e.g. phospholipids, carrier proteins, receptors
Endoplasmic reticulum
Produces transfer vesicles
- Network of intracellular fluid-filled tubules and flattened sacs
- Synthesises and stores proteins, carbohydrates and lipids
- Detoxifies drugs or toxins Transfers products to the golgi bodies (via transfer vesicles) for further processing
Golgi apparatus
Produces lysosomes, membrane renewal vesicles, secretory vesicles and transfer vesicles
- Sets of stacked, flattened membraneous discs called “saccules”
- Processes material from ER into final form
- Synthesises & packages enzymes for use within the cell - Synthesises & packages secretions, such as hormones etc, for release through exocytosis
- Produces new membrane and membrane structures
Lysosomes
Produced by the Golgi apparatus, contain digestive enzymes. Bind to vesicles to form secondary lysosomes. Digest or modify the contents of other vesicles, which may be released into the cytosol or be exocytosed Eg. Phagocytosis
Membrane renewal vesicles
Add new lipids and proteins to cell membrane
- Allows cell to change number and types of carrier proteins or receptors in cell membrane thus changing sensitivity of cell
Secretory vesicles
Produced by Golgi apparatus of cells specialised for secretion of hormones or enzymes
- Vesicles bud off from the Golgi apparatus and then fuse with cell surface membrane to release products to ECF
- Secretory vesicles may release products constitutively (unregulated) or may remain in the cell until release is triggered (regulated)
