Endocrine System Notes PDF

Summary

These notes provide a comprehensive overview of the endocrine system. They cover the different glands, hormones, and their roles in maintaining homeostasis and regulating various bodily functions. This information is suitable for undergraduate-level study in biology or related fields.

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ENDOCRINE SYSTEM

The hormones of the endocrine system
contribute to homeostasis by
regulating the activity and growth of
target cells in your body. Hormones
also regulate your metabolism.
In girls, ESTROGEN promote ENDOCRINE GLAND
accumulation of adipose tissue in the
breasts and hips, sculpting a feminine EXOCRINE GLANDS - secrete their
shape. products into ducts that carry the
At the same time or a little later, secretions into body cavities, into the
increasing levels of TESTOSTERONE in lumen of an organ, or to the outer
boys begin to help build muscle mass surface of the body.
and enlarge the vocal cords, o sudoriferous, sebaceous,
producing a lower-pitched voice. mucous, and digestive glands
NERVOUS SYSTEM - acts through nerve ENDOCRINE GLANDS - secrete their
impulses conducted along axons of products (hormones) into the interstitial
neurons. At synapses, nerve impulses fluid surrounding the secretory cells
trigger the release of mediator rather than into ducts.
(messenger) molecules called o pituitary, thyroid, parathyroid,
neurotransmitters suprarenal, and pineal glands
ENDOCRINE SYSTEM - controls body HORMONE-SECRETING CELLS - are
activities by releasing mediators, called not exclusively classified as endocrine
hormones. glands but contain cells that secrete
HORMONE - is a molecule that is hormones.
released in one part of the body but o hypothalamus, thymus,
regulates the activity of cells in other pancreas, ovaries, testes,
parts of the body. kidneys, stomach, liver, small
o Most hormones enter interstitial intestine, skin, heart, adipose
fluid and then the bloodstream. tissue, and placenta.
o The circulating blood delivers
hormones to cells throughout Taken together, all endocrine glands and
the body. hormone-secreting cells constitute the
Responses of the endocrine system ENDOCRINE SYSTEM
often are slower than responses of the
nervous system
Nervous System – acts on specific
muscles and glands
Endocrine System – regulates virtually
in all types of body cells. (much broader
in influence)

NS & ES function together as an interlocking
“supersystem.”
 HYPOTHALAMUS AND PITUITARY GLAND b. PARS INTERMEDIA - third region of
the pituitary gland that atrophies during
Pituitary Gland/hypophysis – was human fetal development and ceases to
called the “master” endocrine gland exist as a separate lobe in adults
because it secretes several hormones
that control other endocrine glands.
(secretes seven)
Hypothalamus – master of pituitary
gland, a small region of the brain below
the thalamus is the major link between
the nervous and endocrine systems.
(synthesize at least nine different
hormones)
o Together, these hormones play
important roles in the regulation
of virtually all aspects of growth,
development metabolism, and
homeostasis.

PITUITARY GLAND

PITUITARY GLAND - is a pea-shaped
structure that measures 1–1.5 cm (0.5
in.) in diameter and lies in the
hypophysial fossa of the sella turcica of
the sphenoid bone.
INFUNDIBULAR STALK - attaches PG to
the hypothalamus, has two
anatomically and functionally separate
portions:

A. ANTERIOR PITUITARY (anterior
lobe)/adenohypophysis - accounts for about
75% of the total weight of the gland and is
composed of epithelial tissue.
a. PARS DISTALIS - is the larger portion ANTERIOR PITUITARY - secretes hormones
b. PARS TUBERALIS - forms a sheath that regulate a wide range of bodily activities,
around the infundibular stalk from growth to reproduction.

B. POSTERIOR PITUITARY (posterior lobe)/ 1. SOMATOTROPHIC CELLS - secrete
neurohypophysis - is composed of neural GROWTH HORMONE (GH)/somatotropin.
tissue. Growth hormone stimulates general body
a. PARS NERVOSA - the larger bulbar growth and regulates aspects of metabolism.
portion, and the infundibular stalk.
2. THYROTROPHIC CELLS - secrete THYROID
STIMULATING HORMONE (tSH)/thyrotropin.
TSH controls the secretions and other activities
of the thyroid gland.

3. GONADOTROPHIC CELLS - secrete two
gonadotropins: FOLLICLE STIMULATING
HORMONE (FSH) and LUTEINIZING
HORMONE (LH). FSH and LH both act on the
gonads (testes and ovaries).
In men, they stimulate the testes to
produce sperm and to secrete
testosterone. In women, they stimulate
the ovaries to mature oocytes (eggs)
and to secrete estrogens and POSTERIOR PITUITARY - does not synthesize
progesterone. hormones, but it does store and release two
hormones
4. PROLACTIN CELLS - secrete PROLACTIN It consists of axons and axon terminals
(pRL), which initiates milk production in the of more than 10,000 hypothalamic
mammary glands. neurosecretory cells.
o PARAVENTRICULAR and
5. CORTICOTROPHIC CELLS - secrete SUPRAOPTIC NUCLEI of the
ADRENOCORTICOTROPHIC HORMONE hypothalamus, their axons form
(aCtH)/corticotropin, which stimulates the the HYPOTHALAMIC–
suprarenal cortex to secrete glucocorticoids HYPOPHYSEAL TRACT (begins in
such as CORTISOL. the hypothalamus and ends near
Some corticotrophs, remnants of the blood capillaries in the posterior
pars intermedia, also secrete pituitary)
MELANOCYTESTIMULATING 2 hormones released by neuronal cell
HORMONE (MSH). bodies of both the paraventricular and
the supraoptic nuclei:
1. OXYTOCIN (OT) – contraction of
uterus, milk ejection
2. ANTIDIURETIC HORMONE
(aDH)/vasopressin – decreases urine
production

1. OXYTOCIN (OT)
FEMALE: During and after delivery of a
baby, it affects two target tissues: the
mother’s uterus and breasts.
o During delivery, stretching of the
cervix of the uterus stimulates
the release of oxytocin which, in
turn, enhances contraction of
 smooth muscle fibers in the
wall of the uterus
o After delivery, it stimulates milk
ejection from the mammary
glands in response to the
mechanical stimulus provided
by a suckling infant.
MALE and NON-PREGNANT FEMALE:
unknown function

It may also be responsible, in part, for THYROID GLAND
the feelings of sexual pleasure during and
after intercourse. THYROID GLAND - butterfly- shaped
gland located just inferior to the larynx
2. ANTIDIURETIC HORMONE (voice box).
(aDH)/vasopressin o It is composed of RIGHT and LEFT
causes the kidneys to return LOBES, one on either side of the
more water to the blood, thus trachea, that are connected by an
decreasing urine ISTHMUS anterior to the trachea
volume/production. About 50% of thyroid glands have a
In the absence of ADH, urine small third lobe, called the PYRAMIDAL
output increases more than LOBE. It extends superiorly from the
tenfold, from the normal 1 to 2 isthmus. The normal mass of the thyroid
liters to about 20 liters a day is about 30 g (1 oz).
Drinking alcohol often causes
frequent and copious urination THYROID FOLLICLES - microscopic
because alcohol inhibits spherical sacs that make up most of the
secretion of ADH. thyroid gland.
o (This dehydrating effect of o The wall of each follicle consists
alcohol may cause both primarily of cells called T
the thirst and the THYROCYTES (follicular cells), most
headache typical of a of which extend to the lumen
hangover.) (internal space) of the follicle.
ADH also decreases the water
lost through sweating and causes BASEMENT MEMBRANE - surrounds
constriction of arterioles, which each follicle.
increases blood pressure. o When the T thyrocytes are inactive,
their shape is low cuboidal to
squamous, but under the influence
of TSH they become active in
secretion and range from cuboidal
to low columnar in shape.
 The T THYROCYTES/follicular cells rate, more forceful heartbeats, and increased
produce two hormones: blood pressure.
3. Regulate development and growth of
` 1. THYROXINE/tetraiodothyronine (T4) - nervous tissue and bones.
because it contains four atoms of iodine o Nervous system: promote synapse
2. TRIIODOTHYRONINE (T3) - which formation, myelin production, and
contains three atoms of iodine. growth of dendrites.
o Growth of the skeletal system: They
T3 and T4 together are also known as promote formation of ossification
THYROID HORMONES centers in developing bones,
synthesis of many bone proteins,
T thyrocytes also produce and secretion of growth hormone
THYROGLOBULIN (GH) and insulin-like Growth factors
C THYROCYTES / (parafollicular cells) - (IGFs).
lie between follicles, produces hormone o Deficiency of thyroid hormones
CALCITONIN (Ct) during fetal development, infancy,
or childhood causes severe mental
retardation and stunted bone
growth.

CALCITONIN

produced by the C thyrocytes of the
thyroid gland
CT can decrease the level of calcium
in the blood by inhibiting the action of
OSTEOCLASTS (the cells that break
down bone extracellular matrix)
o When its blood level is high,
calcitonin lowers the amount of
blood calcium and phosphates
by inhibiting bone resorption
(breakdown of bone extracellular
matrix) by osteoclasts and by
ACTIONS OF THYROID HORMONES (T3/T4)
accelerating uptake of calcium
and phosphates into bone
1. Increase basal metabolic rate. Thyroid
extracellular matrix.
hormones raise the basal metabolic rate
(BMR), the rate of energy expenditure under
standard or basal conditions (awake, at rest,
and fasting).
2. Enhance actions of catecholamines.
(epinephrine and norepinephrine) The “fight or
flight” response of the sympathetic nervous
system. Therefore, symptoms of excess levels
of thyroid hormone include increased heart
 PARATHYROID GLANDS/HORMONE

PARATHYROID GLANDS - small, round SUPRARENAL (ADRENAL) GLAND
masses of tissue partially embedded in
the posterior surface of the lobes of the SUPRARENAL GLAND/adrenal glands
thyroid gland (paired) - one of which lies superior to
o Each has a mass of about 40 mg each kidney in the retroperitoneal
(0.04 g). Usually, one superior space, have a flattened pyramidal
and one inferior parathyroid shape. (highly vascularized)
gland are attached to each o In an adult, each suprarenal
thyroid lobe for a total of four. gland is 3–5 cm in height, 2–3 cm

PARATHYROID HORMONE (PTH) –
o The specific action of PTH is to
increase the number and
activity of osteoclasts. The
result is elevated bone
resorption, which releases ionic
calcium (Ca2+) and phosphates
(HPO4 2−) into the blood.
o CALCITRIOL – active form of
vitamin D, PTH on kidneys in width, and a little less than 1
promote formation of this cm thick, with a mass of 3.5–5g,
hormone, it increases the rate of only half its size at birth
Ca2+, HPO4 2−, and Mg2+
absorption from the digestive 1. SUPRARENAL CORTEX - large, peripherally
canal into the blood. located, comprising 80–90% of the gland
o ZONA GLOMERULOSA – outer
zone, secretes hormone called
MINERALOCORTICOIDS –
 ALDOSTERONE (affect mineral
homeostasis)
o ZONA FASCICULATA – middle
zone, widest, secretes
GLUCOCORTICOIDS – Cortisol
(Glucose homeostasis)
o ZONA RETICULARIS – inner
zone, synthesize small amounts
of weak ANDROGENS (steroid
hormones that have
masculinizing effects)
PANCREAS
2. SUPRERENAL MEDULLA – small, inner
region of the suprarenal gland, is a modified PANCREAS - is both an endocrine gland
sympathetic ganglion of the autonomic and an exocrine gland.
nervous system (ANS). – the hormones o A flattened organ that measures
released intensify sympathetic responses that about 12.5–15 cm (5–6 in.) in
occur in other parts of the body. length, the pancreas is in the
o CHROMAFFIN CELLS –hormone- curve of the duodenum, the first
producing cells, are innervated by part of the small intestine, and
sympathetic preganglionic neurons of consists of a head, a body, and a
the ANS. tail
o NOREPINEPHRINE/adrenaline/ PANCREATIC ACINI – cluster of
noradrenaline – 80%; exocrine cells that makes up roughly
EPINEPHRINE – 20% 99% of the cells of the pancreas
o The pancreatic acini produce
DIGESTIVE ENZYMES, which flow
into the digestive canal through a
network of ducts.
PANCREATIC ISLETS/Islets of
Langerhans - 1–2 million tiny clusters of
endocrine cells scattered among the
pancreatic acini.
Each pancreatic islet includes four
types of hormones- secreting cells:
1. Alpha or A cells constitute about
17% of pancreatic islet cells and
secrete GLUCAGON
2. Beta or B cells constitute about 70%
of pancreatic islet cells and secrete
INSULIN
3. Delta or D cells constitute about 7%
of pancreatic islet cells and secrete
SOMATOSTATIN
 4. Pancreatic polypeptide cells INHIBIN - a protein hormone that
constitute the remainder of pancreatic inhibits secretion of FSH. + During
islet cells and secrete PANCREATIC pregnancy, the ovaries and placenta
POLYPEPTIDE produce a peptide hormone called
RELAXIN (RLX), which increases the
flexibility of the pubic symphysis
during pregnancy and helps dilate the
uterine cervix during labor and
delivery. These actions help ease the
baby’s passage by enlarging the birth
canal.

2. TESTES
are oval glands that lie in the scrotum.
TESTOSTERONE – androgen or male sex
hormone
o Testosterone stimulates descent
of the testes before birth,
regulates production of sperm,
and stimulates the
OVARIES and TESTES development and maintenance
of male secondary sex
GONADS - organs that produce characteristics, such as beard
gametes— sperm in males and growth and deepening of the
oocytes in females. In addition to their voice.
reproductive function, the gonads INHIBIN - which inhibits secretion of
secrete hormones. FSH.

1. OVARIES
paired oval bodies located in the female
pelvic cavity, produce several steroid
hormones, including two ESTROGEN
(estradiol and estrone) and
PROGESTERONE.
o These 2 hormones together with
FSH and LH (anterior pituitary) -
regulate the menstrual cycle,
maintain pregnancy, and
prepare the mammary glands
for lactation.
o They also promote enlargement
of the breasts and widening of
the hips at puberty and help
maintain these female
secondary sex characteristics.
 PINEAL GLAND and THYMUS

PINEAL GLAND
o is a small endocrine gland
attached to the roof of the third
ventricle of the brain at the
midline
o Part of the epithalamus, it is
positioned between the two
superior colliculi, has a mass of
0.1–0.2 g, and is covered by a
capsule formed by the pia mater.
o PINEALOCYTES - masses of
neuroglia and secretory cells
o MELATONIN - an amine hormone
derived from serotonin.
▪ Melatonin appears to
contribute to the setting
of the body’s biological
clock, which is controlled
by the suprachiasmatic
nucleus of the
hypothalamus.
▪ As more melatonin is
liberated during darkness
than in light, this hormone
is thought to promote
sleepiness.
THYMUS - located behind the sternum
between the lungs.
o The hormones produced by the
thymus—thymosin, thymic
humoral factor (THF), thymic
factor (TF), and thymopoietin
promote the maturation of T
cells (a type of white blood cell
that destroys microbes and
foreign substances) and may
retard/slow down the aging
process