the UrInary SyStem 231
hoW do the kidneys help manage the body’s
fluid balance?
- To maintain the volume of extracellular fluid, hormones adjust
the amount of water urine contains. - ADH stimulates the kidneys to conserve water. It acts on distal
tubules and collecting ducts. - Aldosterone promotes the reabsorption of sodium, which
indirectly increases the amount of water the body retains.
taKe-Home message
Figure 12.9 a negative feedback loop from the kidneys
to the brain helps adjust the fluid volume of the blood.
A Stimulus
C Kidneys reabsorb
more water, so less
water leaves in urine.
D The blood
volume rises.
E Response
Water loss reduces
blood volume. Sensors
in the brain trigger
release of ADH.
B ADH makes distal
tubules, collecting
ducts more permeable
to water.
Receptors in brain
detect the increase
in blood volume.
Signals for ADH
secretion stop.
pressure. Then a negative feedback loop inhibits the
release of ADH (Figure 12.9).
Reduced blood volume also affects cells in the afferent
arterioles that bring blood to nephrons. These cells release
the enzyme renin. They are part of the juxtaglomerular
apparatus (Figure 12.10A). Juxta- means “next to,” and this
“apparatus” is an area where arterioles of the glomerulus
come into contact with a nephron’s distal tubule.
Renin triggers reactions that produce a protein called
angiotensin I and then convert it to angiotensin II. Among
other effects, angiotensin II stimulates cells of the adrenal
cortex, the outer portion of a gland perched on top of each
kidney, to secrete the hormone aldosterone (Figures 12.3
and 12.10B). Aldosterone causes cells of the distal tubules
and collecting ducts to reabsorb sodium faster, so less
of it and less water are excreted. By limiting the loss of
water, this process also influences blood pressure.
What must the kidneys do to make dilute urine? Not
much. Urine is automatically dilute as long as ADH levels
are low, so little of the hormone acts on the distal tubules
and collecting ducts.
A diuretic is a substance that promotes the loss of water
in urine. For example, caffeine reduces the reabsorption of
sodium along nephron tubules, so more water is excreted.
a thirst center monitors sodium
What makes you thirsty when you don’t drink enough?
The concentration of salt in your blood has risen, and this
change reduces the amount of saliva your salivary glands
produce. A drier mouth stimulates nerve endings that
signal a thirst center in the brain. The center also receives
signals from the same sensors that stimulate the release of
ADH. In this case the signals are relayed to a part of the
brain that “tells” you to find and drink fluid.
Figure 12.10 The juxtaglomerular apparatus (JGa) and renin-secreting cells assist with the reabsorption of sodium.
(efferent arteriole
leaving the
glomerulus)
(afferent arteriole
leading into
glomerulus)
Receptors in kidneys,
elsewhere detect falling
sodium level
Angiotensinogen
converts to angiotensin I
Angiotensin II
renin-secreting cells
in juxtaglomerular
apparatus
distal
tubule
Bowman’s
capsule
proximal
tubule
Aldosterone secreted
(from adrenal glands)
Aldosterone acts on
distal tubules
Sodium (and water)
reabsorbed
A
B
Renin released from
cells in the JGA
© Cengage Learning
© Cengage Learning
Copyright 2016 Cengage Learning. All Rights Reserved. May not be copied, scanned, or duplicated, in whole or in part. Due to electronic rights, some third party content may be suppressed from the eBook and/or eChapter(s).