Clinical Chemistry 2: Intro to Endocrinology, Pituitary & Hormones PDF

Summary

This document contains lecture notes on clinical chemistry, focusing on endocrinology, pituitary function, and hormones. It covers topics such as intracellular communication, neurotransmitters, and different types of hormones.

Full Transcript

LESSON 13: Intro to Endocrinology, Pituitary and Hormones Why is the Endocrine System Important?
LECTURER: Dr. Marie Angela Nee C. MAINTENANCE OF HOMEOSTASIS & REGULATION OF
BODILY PROCESSES
INTRODUCTION TO ENDOCRINOLOGY
(HYPOTHALAMIC & PITUITARY FUNCTION)
A. ENDOCRINOLOGY
Branch of medicine that specializes in diagnosing and
treating disorders of the endocrine system, which includes
○ The glands and organs that make hormones.
These disorders include diseases like:
○ Diabetes, infertility, and thyroid, adrenal, and
pituitary gland problems.

B. INTRACELLULAR COMMUNICATION
BY CHEMICAL MESSENGERS

Use of neurotransmitters which are
NEURAL released at synaptic junctions and act
locally.
Uses hormones released from
specialized glands or cells, which
reach the circulating blood and influence
the function of target cells some
distance away.
Examples of hormones:
ENDOCRINE
○ Prolactin
Secreted by pituitary gland. Neuroendocrine System

Has an effect on the breast in Control of body processes is achieved through interactions
instances when a woman is between neural and endocrine systems.
breastfeeding. Linked by neuroendocrine cells (and the neuroendocrine
[This is the topic for this lecture] system) located at the hypothalamus whose axons
Secretion/Secreted products from terminate in the posterior pituitary gland and median
neurons (neurohormones) reach the eminence.
circulating blood and influence the ○ Antidiuretic Hormone (ADH)
function of target cells some distance ○ Oxytocin
away. ○ Hypophysiotropic Hormones
NEURO- Control secretion of the anterior pituitary hormone.
ENDOCRINE LECTURER’S NOTES:
The main difference between LECTURER’S NOTES (regarding parts of the image above):
Endocrine and Neuroendocrine is Our neuroendocrine cells include:
that the latter uses products from 1. Supraoptic Nucleus
neurons instead of glands. In the hypothalamus.
2. Paraventricular Nucleus
Cell secretion products diffuse into the 3. Magnocellular Neuron
PARACRINE extracellular fluid and affect Both (2) and (3) are connected to the Pituitary
neighboring target cells. Gland by synaptic connections.
Cell secretion products affect the
SYNAPTIC CONNECTIONS
function of the same cell by binding to
AUTOCRINE The synaptic connections terminate either the:
cell surface receptors.
○ Same cell that is secreting it. ○ Posterior Pituitary Gland
○ Median Eminence
The secretions could be released here.
It contains blood vessels which, in turn, carry
the hormones into the Anterior Pituitary Gland.

II. HORMONES

Hormones can be made up by:
Peptides from as small as three amino
Proteins and acids (thyrotropin-releasing hormone) to
Peptides proteins almost 200 amino acids long
(growth hormone and prolactin.)
Derivatives of cholesterol and includes:
1. Adrenocortical Hormones
Steroids ○ (cortisol, aldosterone)
2. Gonadal Hormones
○ (testosterone, estrogen, progesterone)
This transcript is strictly confidential and is intended for AVR 5TH FLOOR group members only; please don’t share or distribute! 1
 CLINICAL CHEMISTRY 2 | Lesson 13: Intro to Endocrinology, Pituitary and Hormones

1. Hormones from the Thyroid Gland. POSTERIOR
Derivatives of Derived from downgrowth of cells
○ (Thyroxine, Triiodothyronine) PITUITARY GLAND/
the amino acid from the third ventricle of the brain.
2. Hormones from the Adrenal Medulla. NEUROHYPOPHYSIS
TYROSINE
○ (Epinephrine, Norepinephrine) Pituitary gland is connected to the hypothalamus by the
hypothalamic or pituitary stock.
A. CONTROL OF HORMONAL SECRETION
Controlled by the negative feedback loop.
○ Endocrine at baseline they tend to over secrete the
hormone to drive target cell function.
○ When too much function of the target cells occurs, there
is a negative feedback to the endocrine gland.
○ Signals the endocrine gland to stop producing the
hormone.
○ Negative effect on the gland, decreasing its
secretory rate.
Pituitary stock.
EXAMPLE

IV. POSTERIOR PITUITARY GLAND/ NEUROHYPOPHYSIS

Simple feedback loop.
Pituitary gland
Hypothalamus which produces your TRH (thyrotropin Posterior pituitary — stores hormones synthesized in the
1 releasing hormone) that stimulates the pituitary gland to hypothalamus.
produce your thyroid stimulating hormone (TSH). ○ Pituitary gland actually does not synthesize hormones.
In turn, your TSH will then stimulate your thyroid gland to
2
produce thyroxine. MAGNOCELLULAR NEURONS- Posterior pituitary gland
An increased amount of thyroxine inside the body would Whose cell bodies are located in the hypothalamus
3 eventually stimulate your hypothalamus to STOP synthesize the neurohypophysial hormones.
producing TRH. Location: extends to the posterior lobe of the pituitary gland
Therefore, without the action of TRH, the pituitary gland Antidiuretic hormone (ADH) and oxytocin.
4 TSH would also be decreased and then the thyroid would ○ Two hormones which are stored in the pituitary gland.
also STOP producing thyroid hormones or thyroxine.
SECRETION GRANULES CONTAINING NEUROHORMONES
B. ACTIVATION OF HORMONAL RECEPTORS
They are transported from the cell bodies in the
Control cellular processes by interacting with receptors on
hypothalamus → axons in the pituitary stalk → storage
target cells.
sites in nerve terminals located in the posterior pituitary
THE RECEPTORS LOCATION gland.
ADH and oxytocin are released from secretion granules into
On or within Cell which peptide or protein hormones the capillary plexus of the inferior hypophysial artery.
Membrane and catecholamine hormones use.
Within the cell or A. OXYTOCIN & ADH/AVP
either in the such as the target organs or cells for
cytoplasm or steroid and thyroid hormones.
nucleus

III. PITUITARY HORMONES

A. PITUITARY GLAND
AKA master/ gland of the endocrine system.

DIVIDED INTO 2 PORTIONS

ANTERIOR Derived embryologically from an
PITUITARY GLAND/ upward invagination of cells from
ADENOHYPOPHYSIS the oral cavity (Rathke's Pouch).
Cell Bodies of Magnocellular Neurons

This transcript is strictly confidential and is intended for AVR 5TH FLOOR group members only; please don’t share or distribute! 2
 CLINICAL CHEMISTRY 2 | Lesson 13: Intro to Endocrinology, Pituitary and Hormones

SYNTHESIZED AS PREPROHORMONES
Initiated by: Receptors on the nipples of the breast.
In the cell bodies of magnocellular neurons located in the ○ When a baby starts to suckle, it sends a signal — an
supraoptic and paraventricular nuclei. Ascending Sensory Information — to the
Preprohormones (inactive) need to be activated by hypothalamus of the brain.
removing a certain protein for it to become a prohormone.
Prohormone has to be activated into an active hormone SUCKLING STIMULATION BRINGS ABOUT:
Originally, when they are synthesized in the Hypothalamus, 1 OXYTOCIN - POSTERIOR Pituitary
they are still inactive - thus, they are preprohormones. The suckling will bring about reflex stimulation of
○ When they are inactive, they are still bound to oxytocin-containing neuroendocrine cells.
neurophysin. ○ And the section of oxytocin from the Posterior
○ They then travel down the axon into the Posterior Pituitary Gland.
Pituitary Gland, where they can be activated. The release of oxytocin causes smooth muscle
contraction.
Synthesized largely in the ○ Thus, there will be more milk secretion.
OXYTOCIN paraventricular nucleus 2 INHIBITION OF PIH - ANTERIOR Pituitary
Green Cells in the pic above
The suckling will also bring about the inhibition of
Synthesized largely in the supraoptic Prolactin-Inhibiting Hormone (PIH) in the Anterior
ADH nucleus Pituitary.
Purple Cells in the pic above ○ With the inhibition of PIH, the Anterior Pituitary Gland
Part of the preprohormone. will produce Prolactin.
The protein attached to ADH and ○ Thus, there will be more milk secretion.
NEUROPHYSIN
oxytocin while in the hypothalamus,
so that they remain inactive. LECTURER’S NOTES:
A mother of a newborn who complains about not being
B. OXYTOCIN able to produce enough milk is usually advised to just
continue trying to breastfeed the baby.
○ This is to keep stimulating the Milk Ejection Reflex
so they will eventually be able to produce more milk.
○ Also so that the myoepithelial cells are able to
contract and excrete the milk that is stored in the
alveoli.

C. ANTIDIURETIC HORMONE (ADH)/
ARGININE VASOPRESSIN (AVP)
Regulates the osmolality of body fluids by altering renal
excretion of water.
○ Sensitive to changes in plasma osmolality.
○ Even a 1% change in plasma osmolality can cause the
Milk Ejection Reflex
secretion of ADH.
Plays an important role in lactation by causing milk ejection. ADH secretion is regulated by osmoreceptors in the
○ This is also known as the Let Down Reflex, or the Milk Anterior hypothalamus that send nervous signals to the
Reflex. supraoptic and paraventricular nuclei.
Oxytocin’s action causes contraction of the myoepithelial
cells of the alveoli of the mammary glands. EFFECTS OF ADH
○ This forces milk from the alveoli into the ducts so the 1 ABSENCE OF ADH - Less water reabsorption.
baby can obtain it by suckling. In the absence of ADH, the collecting tubules and collecting
ducts are largely impermeable to water.
MILK EJECTION REFLEX - Oxytocin
○ This prevents significant reabsorption of water in this
portion of the nephron.
2 INCREASE ↑ OF ADH - More water reabsorption.
Increased ADH activates V2-receptors of the kidneys, on
the basolateral side of the tubules via a cyclic-AMP
(cAMP) second messenger system.
○ Once the V2 Receptors are activated by ADH:
Cytoplasmic vesicles containing aquaporin are
inserted in the apical membrane.
Thus, increases the permeability of the tubules to
water.

MIlk Ejection Reflex

This transcript is strictly confidential and is intended for AVR 5TH FLOOR group members only; please don’t share or distribute! 3
 CLINICAL CHEMISTRY 2 | Lesson 13: Intro to Endocrinology, Pituitary and Hormones

DIAGRAM OF ADH Drugs
○ Morphine
○ Nicotine
○ Barbiturates
Hypervolemia
○ Correct fluid status of body.
Hypertension
○ Excrete more water; decrease
blood volume.
DECREASE ↓ADH
Alcohol
○ Drinking alcoholic beverages
makes you urinate large portions of
ADH
dilute urine often since alcohol
inhibits ADH secretion.
LOW secretion of ADH
Aquaporin C1. DISEASES CAUSED BY AN ABNORMALITY OF ADH
○ channels in which water is
reabsorbed. C1.1 SYNDROME OF INAPPROPRIATE ANTIDIURETIC
WELL ○ FEW in the basolateral membrane HORMONE (SIADH)
HYDRATED and the rest will stay WITHIN the cell.
A disease which is caused by an abnormal increase of the
○ In this way we only have a few
antidiuretic hormone.
receptors for water to be reabsorbed,
Inappropriate hypersecretion of ADH either from its:
so only MINIMAL water is reabsorbed
back into the bloodstream. NORMAL
HYPOTHALAMIC Caused by tumor or head trauma
SOURCE
HIGH secretion of ADH
ECTOPIC Cancer cells producing ADH
Aquaporin
PRODUCTION abnormally
○ Travel INTO the basolateral
DEHYDRATED
membrane of the collecting tubules,
CAUSES OF SIADH CAN BE DIVIDED INTO:
causing an INCREASE in the water
1 Nervous system disorders
that is reabsorbed.
2 Neoplasia
3 Pulmonary diseases
ADH/AVP in Maintenance of Blood Pressure 4 Drug-induced
Contributes to the maintenance of blood pressure during
hypovolemia. SIADH PRESENTS WITH:
Stimulation of ADH secretion by hypovolemia and/or 1 Hyponatremia
hypotension is achieved by reflexes initiated from receptors Inappropriately ↑elevated urine osmolality (>100
2
in the carotid sinus and aortic arch (high pressure) and mOsm/kg)
atria (low pressure). 3 ↓Decreased serum osmolality in a euvolemic patient

Receptors that can Detect Change in Pressure
High Pressure Carotid sinus and aortic arch
Low Pressure Atria

At least a 5% decrease in blood volume is necessary to
increase ADH secretion.
ADH constricts vascular smooth muscle and helps restore
blood pressure to normal levels.
○ Result of the ADH peptide binding to vascular
V1-receptors on arteriolar smooth muscle.
Summarized causes of ADH - SIADH

LECTURER’S NOTES: CAUSES OF ADH – SIADH
V2-receptors- reabsorption of water in the kidneys 1 Paraneoplastic Syndrome
V1-receptors- constriction of blood vessels Tumor outside the brain which secretes ADH.
Most commonly caused by small cell lung carcinoma.
ADH SECRETION 2 Pneumonia
ADH secretion is influenced by multiple factors. 3 Chronic Obstructive Pulmonary Disease (COPD)
4 Surgeries of CNS
OTHER FACTORS THAT STIMULATE OR DECREASE ADH 5 Head Trauma
SECRETION Damages pituitary
Hypovolemia ○ The pituitary gland is damaged so the stored ADH is
Hypotensions released into the bloodstream.
INCREASE↑ADH Nausea
Pain C1.2. DIABETES INSIPIDUS
Stress Defined as the passage of large volumes (>3L/24hr) of
dilute urine (