Test 3 - Bartling

Question 1

Cellular signal transduction cassettes detect, amplify, and integrate external signals comprised of:

Answer 1

1. Specific cell surface membrane receptors
2. Effector signaling elements
3. Regulatory proteins

Question 2

Six steps of signaling

Answer 2

1. Synthesis of the signaling molecule (ligand)
2. Release of the signaling molecule (ligand)
3. Transport of signaling molecule to target cell
4. Binding of the ligand by a specific receptor protein and CHANGE in conformation
5. Change in cellular metabolism, function, or development - cellular response
6. Removal of ligand, terminating cellular response
7. Degradation of ligand

Question 3

Define hormones

Answer 3

Chemical messengers made by endocrine cells and secreted into the blood

Question 4

T/F: Hormones affect gene expression and protein synthesis

Answer 4

True

Question 5

Autocrine hormones

Answer 5

Act on the same cell that they were secreted from

Question 6

Paracrine hormones

Answer 6

Act on other cells

Question 7

Types of hormones

Answer 7

1. Steroids
2. Amine (amino acid derived)
3. Peptide (lumped with polypeptides)
4. Polypeptides

Question 8

3 Cholesterol Precursors:

Answer 8

1. Corticosteroids
2. Androgens
3. Estrogens

Question 9

What do steroids immediately do?

Answer 9

Diffuse out of endocrine cells into the blood

Question 10

Are steroid hormones lipid soluble?

Answer 10

Yes. They can cross cell membranes.

Question 11

Where are the steroid hormone receptors?

Answer 11

Intracellular (cytoplasmic) receptors are located inside target cells

Question 12

Steroid hormones have a _____ (longer/slower) acting, _____ (longer/slower) half-life than peptide hormones.

Answer 12

Slower Acting

Longer half-life

Question 13

How do steroid hormones lead to signal cascades?

Answer 13

1. Hormone diffuses into cell
2. Activated receptor hormone complex alters gene expression
3. New mRNA directs synthesis of certain proteins to ribosomes
4. New proteins alter cell activity

Question 14

What are Amine hormones derived from?

Answer 14

Tryptophan and Tyrosine

Question 15

Where are amine hormones stored until they’re secreted?

Answer 15

In endocrine cells

Question 16

Where are amine hormone receptors located?

Answer 16

Can be located on the cell surface or intracellular

Question 17

Do polypeptide hormones immediately enter the blood?

Answer 17

No. They can be stored in endocrine cell vesicles

Question 18

Polypeptide hormones are ___ soluble

Answer 18

Water

Question 19

Do polypeptide hormones readily pass through the cell membrane?

Answer 19

No

Question 20

What are polypeptide hormones also called?

Answer 20

First messengers - they bind to external receptors

Question 21

Intracellular effects are mediated by

Answer 21

Second messengers

Question 22

Second messengers are ____ (low/high) weight signaling molecules such as:

Answer 22

Low molecular weight

Cyclic adenosine monophosphate (cAMP) or Calcium

Question 23

G-protein coupled receptors are ___ ___ proteins

Answer 23

Integral membrane proteins (extracellular N-terminus)

Question 24

G-protein coupled receptors have ___ (#) transmembrane-spanning alpha-helices (ligand binds to pocket)

Answer 24

7

Question 25

G-protein coupled receptors have ___ (#) extracellular and intracellular loops.

Answer 25

3 - the third intracellular loop recruits G-proteins

Question 26

G-protein coupled receptors have an intracellular ___-____ ____ ____

Answer 26

C-terminal tail membrane

Question 27

Do G-protein coupled receptors have intrinsic catalytic domains?

Answer 27

No

Question 28

G-protein (guanine nucleotide-binding) activates:

Answer 28

Adenylyl cyclases (converts ATP to cAMP). It also activates protein kinases in the cytosol (signal cascade)

Question 29

Phosphodiesterase inactivates

Answer 29

cAMP (turns off cell response)

Question 30

Specificity of a G-protein is conferred by the ___-____, which contains the GTP-binding site and an ___ ____ activity

Answer 30

Conferred by the alpha-subunit which contains the GTP-binding site and an intrinsic GTPase activity

Question 31

Adenylyl cyclase is activated by:

Answer 31

The action of the alpha-subunit of the G-protein (Gs)

Question 32

With adenylyl cyclase, each molecule of bound hormone can stimulate many Gs alpha-subunits that amplifies the:

Answer 32

Original hormone signal

Question 33

2 Bacterial toxins that target G-proteins:

Answer 33

1. Cholera toxin

2. Pertussis toxin (whooping cough)

Question 34

With Cholera toxin, what does ADP do?

Answer 34

Ribosylates Gs alpha subunit

Question 35

With Cholera toxin: An increase in ____ within the intestinal epithelial cells leads to _____ of Cl- channels and efflux of ___ and ___ (____ ____).

Answer 35

With Cholera toxin: An increase in cAMP within the intestinal epithelial cells leads to phosphorylation of Cl- channels and efflux of electrolytes and water (severe diarrhea).

Question 36

With Pertussis toxin, what does ADP do?

Answer 36

Ribosylates Gs alpha subunit

Question 37

With Pertussin toxin: The enhanced ____ levels inhibit ___ functions

Answer 37

Enhanced cAMP levels inhibit neutrophil

Question 38

Do Tyrosine kinase-linked receptors have intrinsic enzymatic activity?

Answer 38

No

Question 39

With Tyrosine kinase-linked receptors: Ligand binding forms a ____ that activates ___ ____ to phosphorylate downstream targets (signal cascade)

Answer 39

Ligand binding forms a dimer that activates tyrosine kinases

Question 40

Intrinsic enzymatic activity receptors are ____-triggered protein _____

Answer 40

Ligand-triggered protein kinases

Question 41

Intrinsic enzymatic activity receptors are similar to:

Answer 41

Tyrosine-linked receptors (form dimers upon ligand binding)

Question 42

With Intrinsic enzymatic activity receptors: Ligand/receptor complex directly acts as a ___ ___

Answer 42

Tyrosine kinase (phosphorylates other kinases)

Question 43

With Intrinsic enzymatic activity receptors: Phosphorylation activates _____

Answer 43

Other protein kinases

Question 44

In ion-channel receptors, ___ binding changes confirmation of the receptor

Answer 44

Ligand

Question 45

Ligand binding in ion-channel receptors allows for:

Answer 45

Specific ions (sodium, potassium) to flow through the channel.

Question 46

___ ___ prevents the release of acetylcholine neurotransmitter and cleaves proteins involved in docking of neurotransmitter vesicles

Answer 46

Botulinum toxin

Question 47

Cells maintain steep intracellular (____)/extracellular (___) Calcium concentration gradient that enables rapid changes in Calcium concentration via __ ___

Answer 47

100nM

1mM

Hormone ligation

Question 48

Calcium binds to ___ protein, inducing conformational change

Answer 48

Calmodulin

Question 49

Calmodulin protein is __ __ __ joined by a long __ __

Answer 49

2 globular domains

long alpha helix

Question 50

Calcium/calmodulin complex binds to and modifies __ __ that initiate __ __

Answer 50

Target proteins (kinases)

Signal cascade

Question 51

________ is the second messenger responsible for calcium mobilization

Answer 51

Phosphatidylinositol 4,5-bisphosphate (PIP2)

Question 52

PIP2 is hydrolyzed by a __ __ __ __ (PLC) to generate 2 second messengers

Answer 52

PIP2 Specific Phospholipase C

Question 53

The 2 second messengers generates by hydrolyzed PIP2

Answer 53

Inositol triphosphate (IP3)

Diacylglycerol (DAG)

Question 54

IP3 is __ soluble and it mobilizes ___

Answer 54

Water

Calcium

Question 55

DAG is anchored in the plasma membrane due to:

Answer 55

Hydrophobic fatty acid side chains

Question 56

DAG activates:

Answer 56

Key protein kinase C (PKC) family

Question 57

_____ can be hydrolyzed to other phospholipases to produce other lipid second messengers

Answer 57

Phosphatidylcholine

Question 58

Second messengers produced by hydrolyzed Phosphatidylcholine

Answer 58

1. Different species of DAG
2. Phosphatidic acid
3. Arachidonic acid

Question 59

Species of DAG are generated by

Answer 59

PLC

Question 60

Phosphatidic acid is generated by

Answer 60

PLD

Question 61

Arachidonic acid is generated by

Answer 61

PLA2

Question 62

__ __ and __ are key inflammatory and pain mediators

Answer 62

Arachidonic acid and prostaglandins

Question 63

Arachidonic acid and prostaglandins are precursors of

Answer 63

Eicosanoids

Question 64

4 Eicosanoids

Answer 64

1. Prostaglandins
2. Prostacyclins
3. Thromboxanes
4. Leukotrienes

Question 65

Eicosanoids act like ___ and signal via:

Answer 65

Hormones

G-protein coupled receptors

Question 66

Arachidonic acid and prostaglandins modulate

Answer 66

1. Smooth muscle contraction
2. Platelet aggregation
3. Gastric acid secretion
4. Salt and water balance

Question 67

Arachidonic acid conversion to prostaglandins involves a ___ ___

Answer 67

Cyclooxygenase isoform

Question 68

2 cyclooxygenase isoforms

Answer 68

COX-1 (constitutive) and COX-2 (response to inflammatory mediators)

Question 69

COX-1 and COX-2 roles:

Answer 69

1. Stimulate inflammation
2. Regulate blood flow to organs such as the kidney
3. Control ion transport across membranes
4. Modulate synaptic transmission
5. Induce sleep

Question 70

Example of cyclooxygenase inhibitors

Answer 70

Nonsteriodal anti-inflammatory drugs (NSAIDs)

Aspirin and Ibuprofen

Question 71

Role of cyclooxygenase inhibitors

Answer 71

Block cyclooxygenase conversion to prostaglandins

Question 72

___ irreversibly inactivates both forms

Answer 72

Aspirin

Question 73

Selective inhibitors of ___ are effective treatments for inflammatory conditions (rheumatoid arthritis)

Answer 73

COX-2

Question 74

Arachidonic acid is also converted to leukotrienes by ___

Answer 74

Lipoxygenases

Question 75

Explain receptor-independent signaling

Answer 75

Low molecular weight signaling molecules that cross the plasma membrane and directly modulate the activity of the catalytic domains of transmembrane receptors or cytoplasmic signal transducing enzymes

Question 76

__ __ stimulates guanylate cyclase (generates cGMP (relaxes blood vessels))

Answer 76

Nitric oxide

Question 77

Angina symptoms treated with __ __, which is converted to __ __

Answer 77

Glyceryl Trinitrate

Nitric Oxide

Question 78

Explain endocytosis

Answer 78

Packaging of extracellular materials in vesicles at the cell surface

Question 79

Endocytosis requires __

Answer 79

ATP

Question 80

3 types of endocytosis

Answer 80

1. Pinocytosis
2. Phagocytosis
3. Receptor-mediated endocytosis

Question 81

Pinocytosis is cell __

Answer 81

Drinking

Question 82

Pinocytosis is the:

Answer 82

Nonspecific absorption of extracellular fluid

Question 83

Explain how pinocytosis works

Answer 83

Membrane caves in, then pinches off into the cytoplasm as pinocytotic vesicle

Question 84

Phagocytosis is cell __

Answer 84

Eating

Question 85

Phagocytosis is activated by attachment to:

Answer 85

Pathogen-associated molecular patterns (PAMPS)

Question 86

Receptor-mediated endocytosis is __

Answer 86

Selective

Question 87

Receptor-mediated endocytosis forms ___ at ___

Answer 87

Vesicles (containing receptors)

The surface of the membrane

Question 88

Receptor-mediated endocytosis has ___ coated vesicles (forms polyhedral lattice)

Answer 88

Clathrin

Question 89

An example of receptor-mediated endocytosis is

Answer 89

Iron transport via transferring receptor

Question 90

Transcytosis is the:

Answer 90

Movement of receptors to a different membrane from the one in which it was endycytosed