the hypothalamus and pituitary gland
n The hypothalamus and pituitary gland interact as a major
brain center that controls activities of other organs. Many
of these organs also have endocrine functions.
n Links to Management of water balance by the kidneys 12.4,
Hypothalamus 13.7
Recall from Chapter 13 that the hypothalamus in the
forebrain monitors internal organs and states related to their
functioning, such as eating. It has secretory neurons that
extend down into the slender stalk to its base, then into the
lobed, pea-sized pituitary gland. These neurons deliver sev-
eral hormones to the pituitary. Two of them are later secreted
from the pituitary’s posterior lobe. Others have targets in the
anterior lobe of the pituitary, which makes and secretes its
own hormones. Most of these govern the activity of other
endocrine glands (Table 15.3).
the posterior pituitary lobe stores
and releases hormones made in
the hypothalamus
Axons of certain neurons in the hypothalamus extend
downward into the posterior lobe, ending next to a capil-
lary bed. The neurons make ADH (antidiuretic hormone)
and oxytocin, which are stored in the axon endings.
When one of these hormones is released, it diffuses
through tissue fluid and into capillaries, then travels the
bloodstream to its targets (Figure 15.3).
D The
hormone
molecules
move into
the general
circulation.
kidney
nephrons
mammary
glands
muscles in
uterus wall
ADH oxytocin
B The ADH or
oxytocin moves
downward inside
the axons of the
secretory neurons
and accumulates in
the axon endings.
A Secretory
neurons in the
hypothalamus
synthesize ADH
or oxytocin.
C Action potentials
trigger the release
of these hormones,
which enter blood
capillaries in the
posterior lobe of
the pituitary.
Figure 15.3 The posterior pituitary lobe stores and releases
hormones from the hypothalamus. The diagram also shows
main targets of the posterior lobe’s hormones. (© Cengage Learning)
15.3
Table 15.3 Primary Actions of Hormones Released from the Pituitary Gland
Pituitary Lobe Secretions abbreviation Main Targets Primary actions
Posterior Antidiuretic hormone ADH Kidneys Causes water conservation as required to maintain
Nervous tissue
(extension of
hypothalamus)
(vasopressin) extracellular fluid volume and solute concentrations
Oxytocin OT Mammary glands Causes milk to move into secretory ducts
Uterus Causes uterine contractions during childbirth
Anterior
Glandular
tissue, mostly
Adrenocorticotropic
hormone (corticotropin)
ACTH Adrenal glands Stimulates release of cortisol, an adrenal steroid hormone
Thyroid-stimulating
hormone (thyrotropin)
TSH Thyroid gland Stimulates release of thyroid hormones
Follicle-stimulating
hormone
FSH Ovaries, testes In females, stimulates estrogen secretion, egg maturation; in
males, helps stimulate sperm formation
Luteinizing hormone LH Ovaries, testes In females, stimulates progesterone secretion, ovulation, corpus
luteum formation; in males, stimulates testosterone secretion,
sperm release
Prolactin PRL Mammary glands Stimulates and sustains milk production
Growth hormone
(somatotropin)
GH Most cells Promotes growth in young; causes protein synthesis, cell
division; roles in glucose, protein metabolism in adults
290 Chapter 15
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