hoW do hormones interact With target
cells?
- Hormones interact with receptors that span a target cell’s plasma
membrane or are in its nucleus. The hormone stimulates or halts
the synthesis of proteins or the activity of enzymes in the cell. - Most steroid hormones interact with a target cell’s DNA after
they enter the nucleus or bind a receptor in the cell’s cytoplasm. - Nonsteroid hormones bind to receptors in a target cell’s plasma
membrane. This binding activates an enzyme system. Often a
second messenger relays the signal to the cell’s interior, where
the full response unfolds.
taKe-home message
An activated enzyme launches a cascade of reactions by
converting ATP to cyclic AMP. Molecules of cyclic AMP are
signals for the cell to activate molecules of another enzyme.
These act on still other enzymes, and so forth, until a final
reaction converts stored glycogen in the cell to glucose.
Soon a huge number of molecules are taking part in the
cell’s final response to the hormone.
A slightly different example is a muscle cell that has
receptors for insulin, a protein hormone. When insulin
binds to the receptor, one result is that transport proteins
insert themselves into the plasma membrane so that the
cell can take up glucose faster. The signal also activates
enzymes that catalyze reactions allowing the cell to store
glucose not needed right away for its metabolism.
4
3
Glucagon binds with a
receptor. Binding activates
an enzyme that catalyzes the
formation of cyclic AMP from
ATP inside the cell.
Cyclic AMP
activates another
enzyme in the cell.
The enzyme activated by
cyclic AMP activates another
enzyme, which in turn activates
another kind that catalyzes the
breakdown of glycogen to its
glucose monomers.
The enzyme
activated by cyclic
AMP also halts
glycogen synthesis.
A peptide hormone molecule
diffuses from blood into tissue
fluid bathing the plasma
membrane of a cell. This example
shows the hormone glucagon
acting on a liver cell.
A steroid hormone
molecule passes from
blood into tissue fluid
bathing a target cell.
The hormone
diffuses through the
cytoplasm and nuclear
envelope. It binds with its
receptor in the nucleus.
Being
lipid-soluble,
the hormone
easily diffuses
across the
cell’s plasma
membrane.
The resulting
mRNA moves into
the cytoplasm and
is transcribed into
a protein.
ATP
cyclic AMP +Pi
receptor
change in cell
activity
hormone–
receptor
complex
glucagon receptor at
target cell’s plasma
membrane
1
2
5
A specific
gene responds
to the hormone
receptor complex.
4
1
2
3
5
Figure 15.2 Animated! Different types of hormones cause change in a target cell by different mechanisms. Part a shows an example
of a mechanism by which a steroid hormone triggers changes in a target cell’s activities. Part b is an example of how a peptide hormone
triggers changes in the activity of a target cell. In this example, the hormone is glucagon. Cyclic AMP, a type of second messenger, relays
the hormone’s signal inside the cell. (© Cengage Learning)
a b
the endOCrIne system 289
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).