The Endocrine System 237
tion of both hormones is stimulated by sympathetic
impulses from the hypothalamus, and their functions
duplicate and prolong those of the sympathetic divi-
sion of the autonomic nervous system (mimeticmeans
“to mimic”).
Epinephrine and Norepinephrine
Epinephrine (Adrenalin) and norepinephrine (nor-
adrenalin) are both secreted in stress situations and
help prepare the body for “fight or flight.” Norepi-
nephrineis secreted in small amounts, and its most
significant function is to cause vasoconstriction in the
skin, viscera, and skeletal muscles (that is, throughout
the body), which raises blood pressure.
Epinephrine, secreted in larger amounts, increases
the heart rate and force of contraction and stimulates
vasoconstriction in skin and viscera and vasodilation in
skeletal muscles. It also dilates the bronchioles,
decreases peristalsis, stimulates the liver to change
glycogen to glucose, increases the use of fats for
energy, and increases the rate of cell respiration. Many
of these effects do indeed seem to be an echo of sym-
pathetic responses, don’t they? Responding to stress is
so important that the body acts redundantly (that is,
exceeds what is necessary, or repeats itself) and has
both a nervous mechanism and a hormonal mecha-
nism. Epinephrine is actually more effective than sym-
pathetic stimulation, however, because the hormone
increases energy production and cardiac output to a
greater extent. The hormones of the adrenal medulla
are summarized in Table 10–6, and their functions are
shown in Fig. 10–9.
ADRENAL CORTEX
The adrenal cortexsecretes three types of steroid
hormones: mineralocorticoids, glucocorticoids, and
Table 10–5 HORMONES OF THE PANCREAS
Regulation
Hormone Functions of Secretion
Glucagon
(alpha cells)
Insulin (beta cells)
Somatostatin
(delta cells)
- Increases conversion of glycogen to glucose in the liver
- Increases the use of excess amino acids and of fats for energy
- Increases glucose transport into cells and the use of glucose for
energy production - Increases the conversion of excess glucose to glycogen in the liver
and muscles - Increases amino acid and fatty acid transport into cells, and their
use in synthesis reactions - Decreases secretion of insulin and glucagon
- Slows absorption of nutrients
Hypoglycemia
Hyperglycemia
Rising levels of insulin
and glucagon
Table 10–6 HORMONES OF THE ADRENAL MEDULLA
Regulation
Hormone Function(s) of Secretion
Norepinephrine
Epinephrine
- Causes vasoconstriction in skin, viscera, and skeletal muscles
- Increases heart rate and force of contraction
- Dilates bronchioles
- Decreases peristalsis
- Increases conversion of glycogen to glucose in the liver
- Causes vasodilation in skeletal muscles
- Causes vasoconstriction in skin and viscera
- Increases use of fats for energy
- Increases the rate of cell respiration
Sympathetic impulses
from the hypo-
thalamus in stress
situations