ENDO 1

Question 1

Endocrine Features: (2)

Answer 1

• Provides “broadcast’ regulation of 
many tissues; specificity due to 
receptors
• Slower but longer lasting responses 
compared to the NS

Question 2

We will discuss individual hormones and their specific physiological
functions, but, in general, all hormones regulate three types of things: (3)

Answer 2

(1) Maintenance of Homeostasis
- Thyroid Hormone, Insulin, PTH, Vasopressin, Aldosterone, etc.
(2) Growth and Differentiation
- Growth Hormone, Thyroid Hormone, etc.
(3) Reproduction
- LH, FSH, Estrogen, Progesterone, Testosterone, etc.

Question 3

Specialized endocrine glands: (5)

Answer 3

– Pituitary Gland
– Thyroid Gland
– Parathyroid Gland
– Adrenal Gland
– Pineal Gland

Question 4

SKIPPED
Some organs contain endocrine cells 
that secrete hormones even though 
their primary function is not endocrine 
regulation. (11)

Answer 4

– Hypothalamus (TRH, CRH, etc.)
– Skin (Vitamin D)
– Adipose Tissue (Leptin)
– Thymus (Thymosin)
– Heart (Atrial Natriuretic Peptide)
– Liver (Insulin-Like GF1)
– Stomach (Gastrin)
– Pancreas (Insulin, Glucagon)
– Small Intestine (Secretin, CCK)
– Kidney (Renin, EPO, Vitamin D)
– Gonads (Testes, Ovaries)

Question 5

Classes of Hormones (3)

Answer 5

1. Proteins and Polypeptides
2. Steroids
3. Derivatives of Tyrosine

Question 6

Protein and Polypeptide Hormones

Hormones from the (4)

Answer 6

Hypothalamus,
Anterior Pituitary,
Posterior Pituitary (ex. Antidiuretic Hormone – 9 Amino Acids),
Pancreas (ex. Insulin – 51 Amino Acids), etc.

Question 7

process of protein activation

Answer 7

Synthesized  first  as  a 
Preprohormone,  which 
isthen  converted  to  the 
Prohormone.  Upon 
packing into vesicles in the 
endocrine  cell,  the 
prohormone is cleaved into 
the  Active  hormone  and 
Inactive fragments that are 
then  secreted  by  the 
endocrine cell.

Question 8

Steroid Hormones are from the (3)

Answer 8

adrenal cortex
ovaries
testes

Question 9

Steroid 
hormones 
are 
synthesized 
from

Answer 9

cholesterol

Question 10

when are steroid hormones synthesized?

Answer 10

Hormones are synthesized upon demand rather

than being stored.

Question 11

Amine Hormones are derived from

Answer 11

aa tyrosine

Question 12

Amine Hormones includes (2)

Answer 12

thyroid hormone and adrenal medullary

neurohormones (epinephrine and norepinephrine).

Question 13

when are amine hormones produced?

Answer 13

Amine hormones are produced and then stored until

secreted.

Question 14

Thyroid
hormones bind
to the protein

Answer 14

thyroglobulin

Question 15

Epinephrine
and
norepinephrine
are stored in

Answer 15

vesicles and
released by
exocytosis

Question 16

Hormones released into the circulation can circulate either freely or bound to carrier proteins, also known as

Answer 16

binding proteins

Question 17

The binding proteins serve as a reservoir

for the hormone and prolong the hormone’s

Answer 17

half-life, the time during which the

concentration of a hormone decreases to 50% of its initial concentration.

Question 18

The (2) hormone is the active form of the hormone, which binds to the specific
hormone receptor

Answer 18

free or unbound

Question 19

The majority of amines, peptides, and protein hormones circulate in their —
form.

Answer 19

free

Question 20

Steroid and thyroid hormones circulate bound to

Answer 20

specific transport proteins.
Some binding proteins are specific for a given hormone but some plasma
proteins, such as globulin and albumin can bind to hormones.

Question 21

Thyroid hormone travels in the plasma bound to: (3)

Answer 21

Thyroxine-binding Globulin (TBG), Transthyretin (TTR)

and Albumin

Question 22

Because most binding proteins are 
synthesized in the liver, changes in liver 
function (ex. cirrhosis) may alter

Answer 22

binding
-protein levels and could indirectly affect
plasma hormone levels.

Question 23

Plasma levels of hormones
oscillate throughout the day,
showing peaks and troughs
that are — specific

Answer 23

hormone

Question 24

This 
variable  pattern  of  hormone 
release  is  determined  by  the 
interaction  and  integration  of 
multiple  control  mechanisms, 
which  include

Answer 24

hormonal, 
neural,  nutritional,  and 
environmental  factors  that 
regulate  the  constitutive 
(basal)  and  stimulated  (peak 
levels) secretion of hormones

Question 25

The location of the hormone receptor depends on the —

properties of the hormone (lipophobic/lipophillic).

Answer 25

chemical

Question 26

Ligand/Receptor binding demonstrates (3)

Answer 26

specificity, affinity and saturation.

Question 27

Plasma Membrane Hormone Receptors (4)

Answer 27

1. G-protein Coupled
2. Tyrosine Kinase: Insulin
3. Serine Kinase
4. Cytokine: Leptin

Question 28

Gs coupled Receptors (β Adrenergic, Calcitonin,
ACTH, Glucagon, TSH, Vasopressin) produce the
second messenger —.

Answer 28

cAMP

Question 29

Gq coupled Receptors (α Adrenergic,
Angiotensin II, TRH) activate the second
messengers (3)

Answer 29

IP3, DAG and Ca2+.

Question 30

Receptor numbers vary greatly in
different target tissues. This
provides a way to achieve specific

Answer 30

tissue activation

Question 31

Some receptors, such as (2) receptors,

are more widely distributed.

Answer 31

insulin

and thyroid hormone

Question 32

Nuclear Hormone Receptors

Answer 32

A large family of receptors that are located either in the cytoplasm or
nucleus. All act to increase or decrease gene expression.

Question 33

The hormone receptor 
complex binds to a 
hormone responsive 
element in the 
promoter region of a 
gene, which leads to 
either

Answer 33

activation or
repression of
transcription. Forms
new proteins.

Question 34

Hormone Interactions

The effects of combined actions: (4)

Answer 34

– Antagonism
– Additive
– Synergistic
– Permissiveness

Question 35

Which hormone interaction is described in each of the
following situations?
A. Parathyroid increases plasma calcium levels; Calcitonin
decreases plasma calcium levels.
B. Glucagon, cortisol and epinephrine all increase blood
glucose more than the sum of their individual effects.
C. Thyroid hormone causes expression of B adrenergic
receptors in bronchiolar smooth muscle.

Question 36

Tropic 
Hormones 
are 
hormones 
that have ---- as 
their 
targets.

Answer 36

other
endocrine
glands

Question 37

Hormone levels must be kept in balance
with negative feedback mechanisms. If this
doesn’t occur,— — occur.

Answer 37

endocrine disorders

Question 38

Primary Disorders

Answer 38

• Abnormality in the last
endocrine organ secreting the
hormone leading to either
hypo- or hyper-secretion.

Question 39

Causes of Primary Hyposecretion: (3)

Answer 39

(1) Partial destruction of the gland
(2) Dietary Deficiency
(3) Enzyme deficiency required for
hormone synthesis

Question 40

A tumor in an endocrine gland can

cause

Answer 40

Primary Hypersecretion.

Question 41

Secondary Disorders

Answer 41

• Abnormality in tropic hormone
leading to either hypo- or
hyper-secretion

Question 42

A lack of sufficient tropic hormone

leads to

Answer 42

Secondary Hyposecretion.

Question 43

A tumor (either in an endocrine gland
that secretes tropic hormones or in
non-endocrine tissue (lung)) can
secrete hormones and cause

Answer 43

Secondary Hypersecretion
(Paraneoplastic Endocrine Syndrome)

Question 44

A PRIMARY endocrine
pathology is one where the
abnormality is in the

Answer 44

endocrine organ secreting 
the hormone (ex. thyroid 
gland is either secreting 
too much or insufficient 
amount of TH.

Question 45

A SECONDARY endocrine
pathology is where the
abnormality is in

Answer 45

one of the 
endocrine glands that 
secrete trophic hormones 
(Hypothalamus or Anterior 
Pituitary).

Question 46

SKIPPED
Diagnostic Tests of Endocrine
Function (7)

Answer 46

1. Plasma hormone levels
2. Autoantibodies: Hashimoto thyroiditis, type I diabetes, Graves disease, Addison disease, autoimmune hypoparathyroidism
3. Urine hormone or hormone metabolite levels
4. Stimulation tests by administration of a tropic or stimulating hormone (ex. ACTH to stimulate cortisol release, glucose load to stimulate insulin release)
5. Suppression tests when hyperfunction of an endocrine organ is suspected (ex. response of GH to a glucose load or dexamethasone a synthetic glucocorticoid to suppress ACTH and Cortisol)
6. Measurement of hormone receptor presence, number and affinity (ex. estrogen receptors in breast tumors)
7. Imaging: Radioactive scanning of the thyroid and parathyroids; MRI of pituitary and hypothalamic imagine, CT scanning of adrenal and abdominal endocrine lesions, etc.