Thyroid Hormones

Question 1

Where is the thyroid gland located?

Answer 1

ventral surface of trachea with two lobes which are connected by bridge of tissue. Very vascularized and one of the highest rates of blood per gram of tissue and secretes two types of hormones (T3 and T4). also secretes calcitonin. The parts that secrete T3 and T4 are different from those that secrete calcitonin and work in different ways.

Question 2

Stimulation and inhibition of thyroid hormone secretion

Answer 2

• Stimulation of TH secretion:
  
  • cold (infants) → a function of TH is to stimulate basal metabolic rate and stimulate thermogenesis (intrinsic generation of heat by body).
• Inhibition of TH secretion:
  
  • stress
  • warmth

Question 3

Pathway for TH stimulation

Answer 3

Question 4

The microscopic structure of thyroid gland

Answer 4

The follicle

• made up of the colloid and follicular cells

Question 5

What does the colloid contain?

Answer 5

• Thyroglobulin = protein
  
  • Precursor for thyroid hormones
  • Contains tyrosine residues
  • Located in colloid
• Enzymes
• Iodine

Question 6

Where do the colloid substances come from?

Answer 6

• Thyroglobulin and the enzymes are made in the follicular cells and secreted into the colloid.
• Iodide is actively transported by follicular cells from the blood into the colloid.
  
  • Enzymes then convert iodide to iodine.

Question 7

Synthesis of thyroid hormone

Answer 7

1. Iodide is actively transported from blood into follicular cells.
2. Iodide diffuses through follicular cells and is transported into the colloid.
3. Iodide is oxidized to iodine via enzyme, thyroid peroxidase, and added to tyrosine rings of thyroglobulin (TG) → when one iodine molecule attaches to a tyrosine ring that structure is called myoiodine tyrosine (MIT) when the addition of a second iodine to same tyrosine residue forms diodotyrosine (DIT)
4. when the iodinated ring is added to another → DIT + DIT form T4 and represents 4 iodine molecules joined to TG. MIT + DIT form T3 and represent 3 iodine molecules joining to TG.
5. TG structure containing the immature T3 and T4 is brought back into the follicular cell via endocytosis.
6. lysosomes merge with the cargo to free T3 and T4 from TG backbone and render them active with enzymes that cleave T3 and T4 from TG
7. then secreted by diffusing out of the follicular cell and into circulation

Question 8

Structure of thyroid hormones

Answer 8

• Thyroxine (T₄) → DIT + DIT
• Triiodothyronine (T₃) → DIT + MIT

Question 9

How is T₃ and T₄ released into circulation?

Answer 9

• TSH in circulation is released to interact with it receptor on the follicle cell membrane to stimulate the release of T3 and T4. TSH uses a G protein-linked receptor, which is a hydrophilic and uses cAMP as a second messenger system.

Question 10

What makes up the bulk of TH stored in the colloid?

Answer 10

DIT and T4 make up the bulk each comprising about ⅓ (total ⅔) of iodinated compound within colloid, MIT about ¼ and T3 less than 10%

Question 11

How long might DIT/T4 and MIT/T3 be stored in the colloid?

Answer 11

up to 3 months until they are released

Question 12

Stages of TH secretion

Answer 12

Once TH (T3 and T4) are synthesized and stored in colloid

1. Circulating TSH binds to its G-protein coupled receptor and and phosphorylates follicular cell protein necessary for endocytosis of THs from colloid into follicular cell prior to release (4)
2. Precursor TH undergoes endocytosis by follicular cell (5)
3. Endozome containing precursor TH fuses with lysosome and upon merging the lysosome enzymes (proteases) cleave the TG from the T3 and T4 and release them into the follicular cell (6)
4. T3 and T4 are hydrophobic so they can free diffuse across the membrane into circulation (7)
5. T3 and T4 need the help of carrier proteins in the blood to be transported (7)

Question 13

When are T3 and T4 active?

Answer 13

Once they are cleaved from the TG in the follicular cell (via protease enzymes in the lysosome)

• They are inactive when attached to the TG

Question 14

What proteins carry the TH hormones in the blood?

Answer 14

Thyroxine-bonding globulin (TBG) & albumin

• TBG has a high binding ability but low capacity so bind tightly but cannot bind very many before becoming saturated and albumin is the opposite so it can bind a lot before becoming saturated but not very tightly. Hence they work together to transport TH to target tissue in circulation

Question 15

What are the thyroid hormones?

Answer 15

• T4
  
  • Most abundant form produced → about 50% greater in concentration to T3 and has a longer half life
  • Converted to T3 in tissues
    
    • Via deiodinases (e.g. D1, D2)
• T3
  
  • More active and potent at target tissue than T4
• RT3
  
  • Inactive thyroid hormone
  • T4 becomes RT3 via D3

Question 16

Where are the deiodinase enzymes found?

Answer 16

• D1 (T4 to T3) → liver, kidneys, thyroid pituitary gland
• D2 (T4 to T3) → parts of brain, pituitary, brown fat
• D3 (T4 to RT3) → brain and reproductive tissues

Question 17

Actions of T3 and T4

Answer 17

• Regulate basal metabolic rate (BMR: Rate of energy expenditure of a person at rest)
  
  • Supports all basic processes necessary for survival that occur involuntarily
• Necessary for normal growth
• Essential for normal brain development and normal brain functioning in adults
• Promote increased energy mobilization when in excess
  
  • can stimulate oxygen consumption by cells and regulate lipid and carb matabolism
• Increase numbers of beta-adrenergic receptors
  
  • can promote and inhibit the expression of genes
  • could increase HR and contraction of heart muscle

Question 18

Hyperthyroidism

Answer 18

Thyroid hormone excess → forward protrusion of eyes and inflamed throat

Causes:

• tumours
• thyroid-stimulating immunoglobulins (Graves’ disease)

Symptoms: nervousness, insomnia, high heart rate, eye disease, weight loss and anxiety, excessive heat production.

Question 19

Graves disease

Answer 19

• Autoimmune disease: Abnormal antibodies against the TSH receptor are produced
• negative feedback is not achieved because there is still release from the autoimmune response
• Cause unknown
• Most common cause of hyperthyroidism in the world
• Most common cause of general thyroid enlargement in developed countries
• symptoms can be reversible → surgery, active iodine

Question 20

Hypothyroidism:

Answer 20

Thyroid hormone deficiency

Causes:

• lack of iodine in diet
• under active thyroid

Symptoms: lethargy, fatigue, cold-intolerance, weakness, hair loss and weight gain.

Question 21

How does hypothyroidism differ depending in age?

Answer 21

• During development: cretinism → dwarfism and under mental development
• Adulthood: myxedema → thickness and puffiness of skin because the protein complexes accumulate and promote water retention

Question 22

How can hypothyrodism be mitigated?

Answer 22

administrative does of TH can restore normal function and appearance

Question 23

Iodine deficiency

Answer 23

• Goiter may be present
• Iodine deficiency leaves the thyroid gland unable to produce T4 and T3
• Lack of negative feedback leads to excess TSH secretion
• TSH stimulates growth of the thyroid gland by enhancing follicular cell division
• Uncommon in the developed world because of use of iodized salt
• Still the leading cause of preventable intellectual disability