HUMAN BIOLOGY

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308 Chapter 16

The Ovarian Cycle: Oocytes Develop


FSH and LH stimulate cells outside the zona pellu cida
to make estrogens, so estrogen-rich fluid builds up in
the follicle. The blood level of estrogen also rises. Several
hours before it is ovulated, an oocyte completes the cell
division, meiosis I, that was arrested years before. Now,
there are two cells. The smaller one, called the “first polar
body,” may divide again. (Polar bodies contain unneeded
material and eventually disintegrate.) The larger cell, the
secondary oocyte, gets most of the cytoplasm. It now
begins another round of meiosis (meiosis II). As before, this
division is not completed. That happens only if the oocyte
is fertilized.
About halfway through the ovarian cycle, a woman’s
pituitary gland detects the rising estrogen level. It releases
LH, which causes changes that make the follicle swell. The
surge also causes enzymes to break down the bulging fol-
licle wall. When the follicle ruptures—the event we call
ovulation—fluid escapes, along with the secondary oocyte
and polar body (Figure 16.2, step 4).
Once it is in the abdominal cavity, the secondary oocyte
normally enters an oviduct. Long, ciliated projections from
the oviduct (called fimbriae) extend over part of the ovary.
Movements of the projections and cilia sweep the oocyte
into the channel. If fertilization takes place, the oocyte will
finish meiosis II and become a mature egg.

The ovarian and menstrual cycles dovetail


You may remember from Section 16.1 that estrogens
released early in the menstrual cycle stimulate growth of
the endometrium and its blood vessels and glands. These
changes pave the way for a possible pregnancy. Just before
the midcycle LH surge, cells of the follicle wall start releas-
ing estrogens and progesterone. Table 16.1 summarizes

n    As the menstrual cycle advances, a cycle in the ovaries
forms an oocyte that may develop into an egg.
n Links to Limbic system 13.8, Hormones from
the hypothalamus and pituitary 15.3

Hormones guide ovulation


A newborn girl’s ovaries contain about 2 million cells called
primary oocytes (“first egg-forming cells”). All but about
300 are later resorbed, although the ovaries may make
fresh oocytes later on. In each oocyte,
meiosis I begins but then is stopped
by genetic controls. This gamete-
forming type of cell division restarts,
usually in one oocyte at a time, with
each of a woman’s menstrual cycles.
The shift is part of the ovarian cycle,
in which a primary oocyte matures
and is ovulated (Figure 16.2).
Step 1 shows a primary oocyte
near an ovary’s surface. It is sur-
rounded by a layer of cells that nour-
ish it. This layer and the primary
oocyte make up a follicle. At this
point, the hypothalamus is secret-
ing enough GnRH, a releasing hor-
mone, to make the anterior pituitary
release more FSH (follicle stimulat-
ing hormone) and LH (luteinizing
hormone). As the blood level of those
two hormones rises, the follicle grows. More cell layers form
around it. In between, proteins form a thick layer called the
zona pellucida (“transparent girdle”).

Figure 16.2 Animated! Oocytes develop by way of cyclic changes in the ovary. In the cycle’s first phase, a follicle grows and matures.
When a secondary oocyte is released from an ovary, it will enter an oviduct (fallopian tube), the channel to the uterus. (© Cengage Learning)

16.2


corpus luteum Tempo-
rary structure that secretes
hormones that prepare the
uterus for an embryo.
follicle A primary oocyte
and the layer of cells that
nourish it.
ovarian cycle Cycle in
which a primary oocyte
matures.
ovulation Release of a
secondary oocyte from an
ovary.
secondary oocyte The
developmental stage of an
oocyte that is ovulated.
zona pellucida The protein
layer around an ovarian
follicle.

primary
oocyte

follicle
ovary cells


secondary
oocyte

polar
body

secondary
oocyte

corpus
luteum

1 One of many imma-
ture follicles in an ovary.
Each consists of a
primary oocyte and the
surrounding follicle cells.

2 A fluid-filled cavity
begins to form in the
follicle’s cell layer.

3 The primary oocyte
completes meiosis I
and divides unequally,
forming a secondary
oocyte and a polar body.

4 Ovulation. Rupture of
the mature follicle releases
a secondary oocyte
coated with secreted
protein and follicle cells.

5 A corpus luteum
develops from follicle
cells left behind after
ovulation.

6 If pregnancy
does not occur,
the corpus luteum
degenerates.

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