Thyroid Gland

Question 1

T or F. Almost all hormonal output of the thyroid gland is T3

Answer 1

F. It is T4, although T3 is much more active at target tissues

Question 2

Describe the polarity of thyroid epithelial cells

Answer 2

These cells have a basal membrane facing the blood and an apical membrane facing the follicular lumen, which is composed mostly of colloid

Question 3

What is colloid?

Answer 3

mostly newly synthesized thyroid hormones attached to thyroglobulin

Question 4

How is thyroglobulin synthesized?

Answer 4

This is aglycoprotein, composed mostly of tyrosine, that is synthesized on the rough ERand the Golgi of the follicular cellsand is then packaged into secretory vesicles (with thyroid peroxidase lining the inside)to be extruded across the apical membrane in the colloid-filled lumen to later have its tyrosine resides iodinated to form the precursors of thyroid hormones

Question 5

How does iodide enter thyroid follicular cells?

Answer 5

the “I-trap” or 2Na+/I- cotransporteractively transports iodine from the basolateral side of the follicular cells against both electrical and chemical gradientsand a 3Na/2K+ ATPase on the basolateral side maintains the gradientNOTE: Iodide is passively taken up in the gut (about 80% of what we ingest)

Question 6

What are some competitive inhibitors of the Na+/I- cotransporter?

Answer 6

thiocyanate (byproduct of tobacco smoke)perchlorate (an industrial chemical)

Question 7

What happens to I- once it enters the follicular cell?

Answer 7

It traverses to the apical membrane where it is oxidized to I2 by thyroid peroxidase

Question 8

What can inhibit thyroid peroxidase?

Answer 8

propylthiouracial (PTU) (inhibits 5’-deionidase also)Methimazole (inhibits thyroid peroxidase only)

Question 9

What happens to I2?

Answer 9

It is ejected into colloid using a Cl- dependent channel called pendrin.At the apical membrane, just inside the follicular lumen, I2 combines with the tyrosine moieties of thyroglobulin (catalyzed by thyroid peroxidase) to form monoiodotyrosine (MIT) and diiodotyrosine (DIT)

Question 10

What happens to MIT and DIT?

Answer 10

They remain attached to thyroglobulin in the follicular lumen until the thyroid gland is stimulated to secrete its hormones

Question 11

What is the Wolff-Chaikoff effect?

Answer 11

High levels of serum I- inhibit organification (ie. formation of MIT and DIT)

Question 12

What is the ‘coupling’ effect?

Answer 12

While still part of thyroglobulin, two seperate coupling rxns occur between MIT and DIT, again catalyzed by thyroid peroxidase. In one rxn, two molecules of DIT combine to form T4or one molecule of MIT can combine with DIT to form T3

Question 13

Why is more T4 produced than T3?

Answer 13

Because the DIT-DIT coupling rxn is much faster

Question 14

What happens to the iodinated thyroglobulin with T4, T3, and leftover DIT and MIT?

Answer 14

It is stored in the follicular luman as colloid until the thyroid gland is stimulated to secrete its hormones

Question 15

What happens when the thyroid gland is stimulated by TSH?

Answer 15

iodinated thyroglobulin is endocytosed into the follicular epithelial cells and transported to the basal membrane by microtubular action where T4 and T3 (and leftover DIT/MIT) are hydrolyzed from thyroglobulin by lysosomal enzymesand then transported across the basal membrane into nearby capillaries

Question 16

What happens to the DIT and MIT that is left behind in the cell?

Answer 16

They are deionated by the enzyme thyroid deiodinaseand the liberated I- is added to the intracellular pool to be used in the next cycle of hormone production.

Question 17

What happens to T4 and T3 once they enter the bloodstream?

Answer 17

They circulate mostly bound to thyroxine-binding globulin (TBG), with smaller amounts bound to T4-binding prealbumin and albumin, and very little in free form.NOTE: Because only the unbound thyroid hormones are physiologically active, the role of TBG is to provide a large reservoir of ciculating thyroid hormones, which can be released and added to the pool

Question 18

What are the half-lives of the thyroid hormones? Why are they different?

Answer 18

T4- up to 8 daysT3- 24 hrsThe difference is due to the fact that T4 binds more avidly to TBG, and thus is protected

Question 19

What conditions might produce an increase in TBG? What is the effect?

Answer 19

Situations like pregnancytend to increase TBG (due to high levels of estrogen preventing hepatic breakdown)which has the effect of decreasing the amount of free (and active) thyroid hormonesNOTE: The transiently low free levels of thyroid hormones stimulates increased synthesis and secretion of additional thyroid hormones, so during pregnancy the overall picture is one of increased total T4 and T3 but decreased levels of free, physiologically active, thyroid hormone

Question 20

What conditions might produce an decrease in TBG? What is the effect?

Answer 20

hepatic failure prevents TBG production and thus there are increased levels of free thyroid hormones

Question 21

While T4 is the major secretory product from the thyroid, it is typically converted to T3, the more active form. How?

Answer 21

5’ deiodinase catalyzes this conversion by removing one atom of I2 at the target tissue(the I2 is removed from the outer ring here)NOTE: T4 can also be converted to reverse T3 (which is inactive)(the I2 is removed from the inner ring here) using 5-deiodinase

Question 22

How is 5’ iodinase involved during fasting states?

Answer 22

starvation inhibits 5’ iodinase in tissues such as skeletal muscle, thus lowering O2 consumption (via less thyroid hormone production). Thus, T4 is mostly converted to rT3 instead of active T3.NOTE: brain 5’-iodinase is not affected by fasting

Question 23

There are two types of 5’-iodinase. Where is Type I active?

Answer 23

liver, kidney, and thyroid

Question 24

There are two types of 5’-iodinase. Where is Type II active?

Answer 24

Pituitary, CNS, and placentaNOTE: 5-iodinase is active in all tissue

Question 25

Normally conversion of T4 to T3 and rT3 are in a ratio of approximately 45:55% respectively. What situations can increase the amount of rT3 made?

Answer 25

pregnancy, fasting, stress, hepatic and renal failure, and BBs can all do this

Question 26

Normally conversion of T4 to T3 and rT3 are in a ratio of approximately 45:55% respectively. What situations can decrease the amount of rT3 made?

Answer 26

Obesity increases the amount of T3 made

Question 27

How does T3 act at the target tissue?

Answer 27

It enters the nucleus via a Na+-dependent transporter and binds to a nuclear receptor. The T3-receptor complex then binds to athyroid-regualtory element (TRE) on DNA, where it stimulates DNA transcription

Question 28

What are the effects of thyroid binding?

Answer 28

Increase in BMR (via increased O2 consumption/upregulation of NaKATPase),lipid (resulting in lowered serum cholesterol) and protein metabolism (resulting in muscle wasting),thermogenesisincreased gluconeogenesis and glycogenolysis (energy sources)

Question 29

How does thyroid hormone affect the heart?

Answer 29

Myosin, B1-adrenergic receptors, and Ca+ ATPase are produced leading to increases in heart rate AND contractility. This is because increased O2 consumption caused by thyroid action must be met with increased O2 delivery to organs

Question 30

How does thryoid hormone induce increaseoxygen consumption? Are any organs spared from this effect?

Answer 30

They increase Na/K ATPase production resulting in increased O2 consumption and thus increased BMR in all organs except the brain, gonads, and spleen

Question 31

Ultimately increased oxygen consumption depends on increased availability of substrates for oxidative metabolism. How are substrates liberated in these states?

Answer 31

Thyroid hormone increasesglucose absorption from theGI and increases the effects of other hormones that liberate fat and proteinsNOTE: While thyroid hormones both increase protein production AND increases degradation, their net effect is degradation, which results in muscle wasting

Question 32

How do thyroid hormones affect growth?

Answer 32

They act synergistically with growth hormone and somatomedins to promote bone formation and ossification.

Question 33

How does thyroid hormone affect perinatal development?

Answer 33

it is essential for normal CNS maturation.Hypothyroidism during this period can lead to severe, irreversible mental retardation and thus should be screened for

Question 34

How is synthesis of TSH regulated?

Answer 34

Thyrotropin-releasing hormone (TRH) is secreted by the paraventricular nuclei of the hypothalamus and acts on the thyrotrophs of the anterior pituitary to cause synthesis ANDsecretion of TSHNOTE: TRH also stimulates secretion of prolactin by the anterior pituitary

Question 35

When does TSH (and thyroid hormones) begin to be produced during gestation?

Answer 35

Week 13

Question 36

What else influences secretion of TSH?

Answer 36

While TRH from the hypothalamus induces TSH secretion, TSH production is also influenced by the serum levels of thyroid hormones which work by negative feedback.Thus, high levels of T3 inhibits formation of more TSH

Question 37

How does TSH act on the thyroid gland?

Answer 37

When TSH binds to a membrane receptor coupled to adenylyl cyclase via a Gs protein, cAMP is activated which increaseshormone synthesis (basically all steps are amplified) and causes follicular cell hypertrophy

Question 38

How else can the Gs-dependent TSH receptor on the thyroid gland be stimulated?

Answer 38

IgG class thyroid-stimulating immunoglobulins (Abs). This is the basis of Graves diseaseNOTE: In graves disease, circulating TSH levels are actually lower than normal due to negative feedback on the abnormally high levels of thyroid hormone

Question 39

How would levels of TRH, TSH, and T4/T3 be affected by primary hypothyroidism (i.e. a defect at the level of T4/T3 production?

Answer 39

TRH and TSH- High (due to low negative feedback from T4/T3)T4/T3-Low

Question 40

How would levels of TRH, TSH, and T4/T3 be affected by primary hyperthyroidism (i.e. an overproductionat the level of T4/T3 production?

Answer 40

TSH and TRH- LowT4/T3- High

Question 41

How would levels of TRH, TSH, and T4/T3 be affected by secondary hypothyroidism (i.e. a defect at the level of TSH production)?

Answer 41

TRH- HighTSH and T4/T3- Low

Question 42

How would levels of TRH, TSH, and T4/T3 be affected by secondary hyperthyroidism (i.e. an overproduction at the level of TSH production)?

Answer 42

TRH- LowTSH and T4/T3- High

Question 43

What are the effects of reduced iodine intake during development?

Answer 43

cretinism/dwarfism are possible, characterized by profound mental retardation, short stature, and delayed motor developmentNOTE: Tx with a few days of birth restores normal growth BUT if treated after this time cannot restore mental development