Hypothalamus and Pituitary Gland Lecture 2022 PDF

Summary

This lecture explores the intricate relationship between the hypothalamus and pituitary gland, detailing their functions and hormones in regulating various bodily processes. The document covers diverse aspects, including the roles of different hormones and the mechanisms through which these glands communicate and interact.

Full Transcript

HYPOTHALAMUS AND
PITUITARY GLAND

Dr. Kelly Roballo

LEARNING OBJECTIVES

1

2

3

4

Differentiate between
the anterior and
posterior pituitary in
terms of relationship
with the hypothalamus.

Differentiate the release
of hormones from the
anterior vs. posterior
pituitary.

Describe the role of
hypothalamic releasing
hormones in relation to
the anterior pituitary.

List and explain the
function of the pituitary
hormones.

THE PITUITARY GLAND

Adenohypophysis

Neurohypophysis

HYPOTHALAMUS AND THE
PITUITARY GLAND
• Hypothalamus and Pituitary work
together to control many of the
body’s endocrine functions.
• Controls growth, milk production,
osmoregulation.

• Hypothalamus controls the
pituitary via both neural and
hormonal mechanisms.
• Pituitary is connected to the
hypothalamus by a structure named
the infundibulum.

INTERACTION BETWEEN THE
HYPOTHALAMUS AND POSTERIOR
PITUITARY
• The posterior pituitary may be thought
of as a collections of axons whose cell
bodies are located within the
hypothalamus.
• The hormones of the posterior pituitary
are released by neurons.
• Hormones are synthesized in cell bodies
located within the hypothalamus à
hormones are then transported down
axons via neurosecretory vesiclesà
vesicles are stored at nerve terminals
until they are released into the
circulation

INTERACTION BETWEEN THE
HYPOTHALAMUS AND ANTERIOR
PITUITARY
u Contains both neural and endocrine
communications.
u Hypothalamus utilizes releasing
hormones to facilitate
communication with the
anterior pituitary.
u Releasing hormones act on
endocrine cells within the anterior
pituitary triggering release of
hormones into the blood.

PITUITARY HORMONES
ANTERIOR
(ADENOHYPOPHYSIS)

POSTERIOR
(NEUROHYPOPHYSIS)

• Thyroid Stimulating
Hormone (TSH)
• Follicle Stimulating
Hormone (FSH)
• Luteinizing Hormone
(LH)
• Adrenocorticotrophic
Hormone (ACTH)
• Growth Hormone
• Prolactin

• Anti-diuretic Hormone
(ADH aka vasopressin)
• Oxytocin

ANTERIOR PITUITARY

u Anterior lobe is derived from the primitive foregut
u Anterior pituitary is a collection of endocrine cells

u Hypothalamic-hypophysial portal blood vessels
u Provide majority of blood supply to the anterior pituitary
u Hypothalamic hormones delivered to anterior pituitary directly and in high
concentrations and never enter systemic cirulation
u Anterior pituitary cells are the only cells exposed to high concentrations of
hypothalamic hormones

ANTERIOR PITUITARY
Releasing hormone
from hypothalamus

Target cells of anterior
pituitary

Hormone released by
anterior pituitary

Growth Hormone
Releasing Hormone
(GHRH)

Somatotrophs

Growth hormone

Thyroid Releasing
Hormone (TRH)

Thyrotrophs

TSH

Corticotropin Releasing
Hormone (CRH)

Corticotrophs

ACTH

Gonadotropin Releasing
Hormone (GnRH)

Gonadtrophs

FSH and LH

N/A

Lactotrophs

Prolactin

THYROID STIMULATING HORMONE (TSH)

u Glycoprotein hormone
u Acts on follicular cells in the thyroid, leading to secretion of thyroid hormones
u Triiodothyronine (T3)
u Thyroxine (T4)

u Clinical relevance:
u TSH is measured to give clinicians information about how the thyroid gland is working
u This is based off the concept of feedback
u High TSH = Hypothyroid
u Low TSH = Hyperthyoid

FOLLICLE STIMULATING HORMONE (FSH)
AND LUTEINIZING HORMONE (LH)
u Follicle Stimulating Hormone
u Acts on ovarian follicular cells to make estrogens and progestins. Controls menstrual
cycle and stimulates growth of eggs within the ovary
u Act on Sertoli cells of the testicles to make testosterone and induce spermatogenesis

u Luteinizing Hormone
u Female: LH surge is responsible for ovulation, LH also helps to maintain pregnancy if
fertilization occurs.
u Male: Stimulate Leydig cells to produce testosterone
u LH is VERY important in controlling puberty for both males and females

ADRENOCORTICOTROPHIC HORMONE
(ACTH)

• Acts of adrenal cortex to stimulate the production of corticosteroids
(Cortisol)
• Cortisol is important in:
• Responding to stress
• Regulation of blood sugar
• Maintenance of blood pressure
• Regulation of metabolism

• ACTH testing can help with the diagnosis of Cushing’s (too much ACTH
production)and Addison disease (low cortisol production)

GROWTH HORMONE
• Stimulates productions of Insulin-like growth
factor from the liver (and other non
endocrine tissues).
• Stimulates growth in children
• Also increases anabolic action of cells
• Acromegaly (after puberty)
• Pituitary produces too much growth
hormone in adulthood (too much in
childhood leads to gigantism)
• Bones increase in size
• Affected people have increased bone thickness
in hands and face
• Treat with somatostatin analogues (e.g.,
octreotide)

GROWTH HORMONE

PROLACTIN
u Acts on mammary glands to initiate and maintain milk production
u Inhibited by dopamine
u Hyperprolactinemia and typical antipsychotics
u Ex: Risperidone
u These drugs block the inhibition of dopamine and lead to a rise in prolactin
levels
u S/Sx:
u Females: Infertility, irregular menstruation, lactation (galactorrhea)
u Males: Breast growth (gynecomastia), Lactation, infertility

POSTERIOR PITUITARY

u Derived from neural tissue, hence the name “Neurohypophysis”
u Secretes two peptide hormones:
u Antidiuretic hormone (ADH): acts on kidney tubules
u Oxytocin: acts on breasts and uterus

ANTIDIURETIC HORMONE
• Acts on collecting ducts of kidneys to reabsorb water.

OXYTOCIN
• Acts on uterus, causing contractions during labor
• Also acts on mammary glands to aide in ejection of milk

• Pitocin (oxytocin)
• Injected to induce or aide labor
• Also used to treat post-partum hemorrhage (PPH):
oxytocin causes uterus to contract leading to tamponade
of the uterine blood vessels.

PITUITARY ADENOMA
u Neoplasms within the pituitary gland
u Most tumors are benign with resolution of
symptoms after resection

u S/Sx:
u Related to mass effect
(compression/interference with surrounding
structures)
u Visual defects (compression of optic nerve)
u Headache
u CSF rhinorrhea if extension into sphenoid sinus
u S/Sx related to excessive hormone release

THANK YOU