Endo, Topnotch

Question 1

Etymology of “hormone”

Answer 1

Hormaein meaning to arouse

Question 2

Hormone classes (3)

Answer 2

1) Steroid
2) Protein
3) Tyrosine derivatives

Question 3

Hormones that induce production of new protein from DNA

Answer 3

Steroid

Question 4

Hormones that modify existing proteins

Answer 4

Protein hormones

Question 5

Tyrosine-derived hormones (4)

Answer 5

1) NE
2) Epinephrine
3) T3
4) T4

Question 6

T/F Thyroid hormones are lipid-soluble

Answer 6

T

Question 7

G protein subunits

Answer 7

α, β, γ

Question 8

G protein-coupled receptors are activated by

Answer 8

GTP

Question 9

GTP is activated by

Answer 9

Guanine nucleotide exchange factors (GEFs)

Question 10

GTP is inhibited by (2)

Answer 10

1) GTPase-accelerating proteins (GAPs)

2) RGS proteins (regulator of G protein signaling)

Question 11

G protein subunit bound to GDP

Answer 11

α

Question 12

Sequence of events upon binding of hormone to extracellular portion of G protein-coupled receptor

Answer 12

1) GDP > GTP
2) α-subunit dissociates from trimeric complex to associate with other signaling proteins
3) Signaling process terminated with removal of bound hormone
4) α-subunit inactivates itself
5) GTP > GDP
6) α-subunit combines with β- and γ-subunit

Question 13

Signaling proteins associated with α-subunit alter activity of (2nd messengers)

Answer 13

1) Ion channels
2) Adenylyl cyclase
3) Phospholipase C

Question 14

Activity of adenylyl cyclase

Answer 14

ATP > cAMP > activation of protein kinase A > downstream phosphorylation

Question 15

Activity of phospholipase C

Answer 15

PIP2 (membrane phospholipid) > IP3 + DAG

Question 16

Activity of IP3

Answer 16

Mobilizes Ca from mitochondria and ER > smooth muscle contraction or cell secretion

Question 17

Activity of DAG

Answer 17

Activates PKC > phosphorylation of downstream proteins

Question 18

2nd messenger that is the precursor of PGs and other local hormones

Answer 18

DAG

Question 19

2nd messenger associated with αs- and αi-subunit

Answer 19

Adenylyl cyclase > cAMP > PKA

Question 20

Activities of cAMP

Answer 20

1) Activation of PKA

2) Directly regulate ion channels

Question 21

Enzyme for degradation of cAMP

Answer 21

Phosphodiesterase

Question 22

αt-associated G protein is aka

Answer 22

Transducin

Question 23

Activity of αt-subunit

Answer 23

Activates cGMP PDE > decreases cGMP > closes cGMP-dependent ion channels

Question 24

α-subunit associated with phospholipase C

Answer 24

αq-subunit

Question 25

Catalytic or enzyme-linked receptors (4)

Answer 25

1) Guanylyl cyclase
2) Serine/threonine kinase
3) Tyrosine kinase
4) Tyrosine-associated kinase

Question 26

Downstream activity of receptor guanylyl cyclase

Answer 26

GTP > cGMP > protein kinase G > downstream phosphorylation

Question 27

Ligands that bind to receptor guanylyl cyclase (2)

Answer 27

1) ANP
2) NO
3) EDRF

Question 28

Receptor serine/threonine kinase: Subunit to which ligand binds

Answer 28

Type 1

Question 29

Receptor serine/threonine kinase: Subunit that is phosphorylated with ligand binding

Answer 29

Type 2

Question 30

Downstream activity of receptor serine/threonine kinase

Answer 30

Ligand binds to type 1 subunit > phosphorylation of serine/threonine residues on type 2 subunit > downstream activation of effectors

Question 31

Ligand that binds to receptor serine/threonine kinase

Answer 31

TGF-β

Question 32

Ligands that use receptor tyrosine kinase (5)

Answer 32

1) NGF
2) EGF
3) PDGF
4) IGF-1
5) Insulin
6) PRL

Question 33

No intrinsic tyrosine kinase activity but associate with proteins that have tyrosine kinase activity

Answer 33

Tyrosine-associated kinase receptor

Question 34

Receptor families associated with tyrosine-associated kinase receptor (2)

Answer 34

1) Src family

2) Janus family (JAK)

Question 35

Hormones that have tyrosine-associated kinase receptor, JAK

Answer 35

1) EPO

2) GH

Question 36

Hormone whose receptor has 2 beta chains attached together by sulphide bonds

Answer 36

Insulin

Question 37

cAMP vs IP3/DAG: ADH V2

Answer 37

cAMP

Question 38

cAMP vs IP3/DAG: ADH V1

Answer 38

IP3/DAG

Question 39

cAMP vs IP3/DAG: ATII on epithelial cells

Answer 39

cAMP

Question 40

cAMP vs IP3/DAG: ATII on vascular smooth muscles

Answer 40

IP3/DAG

Question 41

cAMP vs IP3/DAG: Catecholamines beta1 and beta2

Answer 41

cAMP

Question 42

cAMP vs IP3/DAG: ACTH

Answer 42

cAMP

Question 43

cAMP vs IP3/DAG: LH, FSH, TSH

Answer 43

cAMP

Question 44

cAMP vs IP3/DAG: Catecholamines alpha1

Answer 44

IP3/DAG

Question 45

cAMP vs IP3/DAG: GnRH

Answer 45

IP3/DAG

Question 46

cAMP vs IP3/DAG: HCG

Answer 46

cAMP

Question 47

cAMP vs IP3/DAG: MSH

Answer 47

cAMP

Question 48

cAMP vs IP3/DAG: CRH

Answer 48

cAMP

Question 49

cAMP vs IP3/DAG: Calcitonin

Answer 49

cAMP

Question 50

cAMP vs IP3/DAG: TRH

Answer 50

IP3/DAG

Question 51

cAMP vs IP3/DAG: Calcitonin, PTH

Answer 51

cAMP

Question 52

cAMP vs IP3/DAG: GHRH

Answer 52

IP3/DAG

Question 53

cAMP vs IP3/DAG: Secretin

Answer 53

cAMP

Question 54

cAMP vs IP3/DAG: Somatostatin

Answer 54

cAMP

Question 55

cAMP vs IP3/DAG: Glucagon

Answer 55

cAMP

Question 56

cAMP vs IP3/DAG: Oxytocin

Answer 56

IP3/DAG

Question 57

Steroid hormones

Answer 57

1) Aldosterone
2) Cortisol
3) Progesterone
4) Estrogen
5) Testosterone
6) Vitamin D
7) Thyroid hormone

Question 58

Unbound vs bound: Active form of steroid hormone

Answer 58

Free

Question 59

Main site of inactivation of steroid hormones

Answer 59

Liver

Question 60

Mechanism for removal of steroid hormones

Answer 60

Kidneys

Question 61

2 categories of synergistic effects of hormones

Answer 61

1) Additive

2) Complementary

Question 62

Additive vs complementary: Epi and NE on the heart

Answer 62

Additive

Question 63

Additive vs complementary: FSH and testosterone on spermatogenesis

Answer 63

Complementary

Question 64

Synergistic vs permissive: Cortisol and epi & NE on blood vessels

Answer 64

Permissive

Question 65

Synergistic vs permissive: T3 and epi on lipolysis

Answer 65

Permissive

Question 66

Permissive vs antagonistic: Estrogen and prolactin on breasts during pregnancy

Answer 66

Antagonistic

Question 67

Negative vs positive feedback: More common

Answer 67

Negative

Question 68

Negative vs positive feedback: Exploding

Answer 68

Positive

Question 69

Long loops of negative feedback (players)

Answer 69

1) Hormone-anterior pituitary

2) Hormone-hypothalamus

Question 70

Short loop of negative feedback

Answer 70

Anterior pituitary-hypothalamus

Question 71

Positive feedback, examples (3)

Answer 71

1) Estrogen-induced LH and FSH surge
2) Oxytocin during labor
3) Oxytocin during lactation

Question 72

Examples of hormone down-regulation

Answer 72

1) Progesterone down regulates its own receptors and estrogen receptors on the uterus
2) T3 downregulates TRH receptors