PH1123 - Membranes

Question 1

where is cholesterol found and its function? (2)

Answer 1

• sits on the inner and outer membrane

- reduces degree of fluidity and regulates rigidity

Question 2

where are there many drug targets?

Answer 2

• proteins on the plasma membrane

Question 3

what are lipid rafts?

Answer 3

• rich collections cholesterol and sphingolipids and other similar lipids with or without associated proteins that serve as attachment points for other biomolecules

Question 4

what do lipid rafts do? (2)

Answer 4

• cell signalling

- endocytic pathways

Question 5

• cell signalling

- endocytic pathways

Answer 5

• separate environments to optimize the course of chemical reactions
• incompatible processes can go on simultaneously inside the same cell

Question 6

what is the first stage of endocytosis?

Answer 6

• part of the membrane falls into the cytoplasm of the cell

Question 7

how do secretory vesicles release their contents?

Answer 7

• exocytosis

Question 8

what is endocytosis?

Answer 8

• the taking in of matter by a living cell by invagination of its membrane to form a vacuole

Question 9

what molecules are endocytosis used for? (3)

Answer 9

• cell uptake of extracellular nutrients
• cell recovery through endocytic recycling
• cholesterol homeostasis

Question 10

what are the different endocytic pathways? (5)

Answer 10

• macropinocytosis
• clathrin coated vesicles
• clathrin independent endocytosis
• cavaeolae; platform is lipid raft
• phagocytosis

Question 11

what is clathrin? (2)

Answer 11

• triskeleton composed of three clathrin heavy chains and three light chains which form a polyhedral lattice around the vesicle
• protein that plays a major role in the formation of coated vesicles

Question 12

what are adaptins?

Answer 12

• they link clathrin to receptors in coated vesicles

Question 13

where do the molecules go to after fusion in clathrin endocytosis? (3)

Answer 13

• to early endosome (pH6.5)
• then late endosome (pH 5.5)
• then lysosome H+ enters (pH 4.5)

Question 14

how does clathrin endocytosis work? (5)

Answer 14

• cargo binds to cargo receptor
• adaptin links clathrin to receptors in coated vesicles
• vescicle forms and fission occurs
• uncoating (opening/splitting of complex) occurs and are transported via transport vesicles
• fusion and sorting endosome

Question 15

in the acidic cell stomach what is inside and what is the optimum pH? (4)

Answer 15

• nucleases (break up DNA)
• proteinases (break up proteins)
• lipases (break up lipids)
• optimum pH is low (4.5)

Question 16

what is receptor mediated endocytosis? (4)

Answer 16

• tranferrin (ion carrying molecule) binds to transferrin receptor
• epidermal growth factor (EGF) binding to EGF receptor
• LDL binding to LDL receptor (endocytic pathway traversed by receptor and ligand)
• all these rely on clathrin mediated endocytosis

Question 17

what is the condition when you have too little iron?

Answer 17

anaemia

Question 18

what is the condition when you have too much iron?

Answer 18

• haemochromatosis

Question 19

what is the function of iron in cells? (3)

Answer 19

• cofactor in enzymes necessary for metabolic processes
• essential element for blood production and important for haemoglobin and myoglobin
• iron transports oxygen in blood from lungs to tissues

Question 20

how does iron get into cells? (7)

Answer 20

• transferrin (ligand) binds and transports iron in blood serum
• transferrin-receptor complexes concentrate in clathrin coated pits and are internalized in an endycotic vesicle
• the clathrin coat is removed and the complexes are directed into an endosome
• the pH in the endosome drops to pH 6 due to the action of (H+)-ATPase pump
• the pH drop weakens the affinity of transferrin for iron, leading to Fe3+ dissociation from the protein where Fe3+ is reduced to Fe2+
• as the pH drops the affinity of the receptor for apotransferrin increases
• remains bound to the receptor in the endosome, the complex recycles to the cell surface and ready for another round of iron uptake

Question 21

how does receptor mediated endocytosis of epidermal growth factor work (EGF)? (2)

Answer 21

• lLigand binding to the receptor’s extracellular domain leads to dimerization (joining) of adjacent EGFR monomers which activates the cytoplasmic tyrosine kinase domains
• after ligand binding and receptor activation the EGFRs are endocytosed and recycled or directed to lysosomes for degradation

Question 22

what happens if there is no regulation of epidermal growth factor? (2)

Answer 22

• binding of an EGF ligand to the receptor’s extracellular domain initiates signal transduction pathways that regulate cell proliferation and differentiation
• over-expression and aberrant activity of EFGR is involved in the development of cancer

Question 23

what is HER2 a target for?

Answer 23

• herceptin

Question 24

why do fats need specialised transport?

Answer 24

• they are hydrophobic

Question 25

what are triglycerides transported by?

Answer 25

• b globulins

Question 26

what is cholesterol transported by?

Answer 26

• b globulins

Question 27

what are phospholipids transported by?

Answer 27

• a globulins

Question 28

what are free fatty acids transported by?

Answer 28

albumin

Question 29

what is the receptor mediated endocytosis of LDL receptors? (4)

Answer 29

• LDL contains chloesterol and cholesterol esters and binds to LDL receptors
• invagination of LDL to form a clathrin coated vesicle
• lysosomes fuse with the vesicle and hydrolyses it where LDL falls off the receptor at low pH
• free cholesterol is released and the endosome is recycled

Question 30

what is autophagy?

Answer 30

• eating from the inside

Question 31

what usually goes through autophagy?

Answer 31

• old and damaged organelles are wrapped in membrane and delivered to the lysosomes for degradation

Question 32

what is the secretory pathway? (2)

Answer 32

• a series of steps a cell uses to move proteins out of the cell
• deliver membrane proteins like tranferrin receptors and LDL receptors

Question 33

what are soluble proteins that are excreted via exocytosis? (2)

Answer 33

• insulin (hormone)

- pepsin

Question 34

what are small molecules that are excreted via exocytosis? (3)

Answer 34

• neurotransmitters
• acetycholine
• noradrenaline

Question 35

how do proteins travel from the ER to the extracellular fluid in vesicles? (3)

Answer 35

• budding of vesicle from ER
• at golgi modification of proteins occur
• vesicle fuses with plasma membrane to release contents

Question 36

what is apoptosis? (2)

Answer 36

• programmed cell death

- allows removal of specific cells for various reasons

Question 37

what are the two pathways of apoptosis? (2)

Answer 37

• intrinsic (cell decides) pathways

- extrinsic (told by other cells) pathways

Question 38

what is the intrinsic pathway of apoptosis? (2)

Answer 38

• cellular stress
• regulation of BCL-2 proteins by transcriptional and post-transcriptional mechanisms
• cell death

Question 39

what is the process of apoptosis? (4)

Answer 39

• pro-apoptotic stimulus
• execution
• engulfment
• clearance

Question 40

what happens to red blood cells in a hypotonic solution? (2)

Answer 40

• the concentration of solutes inside the cell is higher (lower water potential inside the cell) than the outside
• osmosis will occur from outside of cell into the cell and cause it to swell and then burst

Question 41

what happens to red blood cells in a hypertonic solution? (2)

Answer 41

• higher concentration of solutes in solution compared to cell (less water potential outside cell)
• cell shrinks and dies

Question 42

what is the difference between an ion channel and an ion pump? (2)

Answer 42

• an ion channels allows ion to rush down gradients of concentration or electrical potential (PASSIVE)
• an ion pump actively (uses ATP) pushes ions against a gradient and therefore further build up the gradient (ACTIVE)

Question 43

what are nicotinic acetylcholine receptors an example of?

Answer 43

• ionotropic receptors (ligand-gated ion channels)

Question 44

what are g proteins? (3)

Answer 44

• proteins bind GTP rather than ATP
• they are active when bound to GTP and inactive when bound to GDP
• can hydrolyse GTP to GDP

Question 45

what are g protein coupled receptors? (2)

Answer 45

• don’t have ion channels but G-proteins

- have 2 domains where intracellular binds to G-proteins and extracellular binds to neurotransmitters

Question 46

what is signal transduction? (2)

Answer 46

• the mechanism whereby a command is executed within a cell

- an external signal generates an intracellular message

Question 47

what are examples of signal transduction? (4)

Answer 47

• how an action potential casues transmitter release
• how acetylcholine phosphorylates ion channels
• how hormone release is controlled (eg insulin)
• how agonists modify cell growth (eg EGF)

Question 48

what is a symport and an example? (2)

Answer 48

• two molecules working together driving each other from one place to another
• glucose-Na+ coupled transport