patestas

Question 1

function of thyroid gland

Answer 1

• Synthesize the following hormones

–> T3 and T4 = regulate cell and tissue metabolisma nd heat production

–> Calcitonin = regulation of blood calcium levels

Question 2

Thyroid follicle

Answer 2

• basic functioanl unit of the thyroid galnd
• surrounded by baslal lamina, reticualr fibers and FENESTRATEd CAPILLARY PLEXUS
• Store glandular secretory produce in follicular lumen (EXTRACELLULARLY)
• Simple cuboidal follicular cells = normal level of activity
• simple columnar = highly active

Question 3

Parafollicular cells (clear cells, C cells)

Answer 3

• derived from neural crest
• wedged between follicles (not exposed to colloid)
• Dense secretory granules contain:

–> CALCITONIN = released when blood calcium levels are high (lowers blood calcium levels)

Question 4

calcitonin

Answer 4

- Calcitonin LOWERS blood calcium levels to normal as follows:

–> inhibits bone breadkwon by osteoclast

–> it promotes calcium deposition in bones (OSTEOID CALCIFICATION)

• Pts with hypercalcemia can be treated with calcitonin
• can also be prescribed for people with osteoporosis or Pagots disease

Question 5

follicular lumen contains?

Answer 5

• colloid

–> consists of Thyroglobulin (glycoprotein)

–> hromones bound to thyroglobulin (T3 and T4)

Question 6

Overview of Thyroid Synthesis

Answer 6

• Basophils in anterior pituitary secrete thyroid stimulating hormone
• TSH enters genreal circualtion and travels to the thyroid gland
• TSH binds to TSH receptors on basal membrane thyroid folliclar cells
• stimualtes follicular cells to production of T3 and T4 as follows

–> RER is site of THYROGLOBULIN synthesis and GLYCOSYLATION

–> transported to cell membrane where it will binds to iodine

–> Iodine (from diet) is redued to iodide in GI and enters bloodstream which is preferentially absorbed by thryoid gland

–> Oxidation of iodide takes place in the active sites of THYROID PEROXIDASE (a membrane-bound enzyme) on the follicular APICAL cell membrane, facing the colloid (oxidation of iodide occurs in the colloid

–> IODINATION of thyrobluins tyrosine residues: the process is catalyzed by thryoid peroxidase and occurs where lumianl aspec of follicular cell contacts the colloid, producing monoiodotyrosine (MIT) and Diiodotyrosine (DIT)

Question 7

Role of Thyroglobulin

Answer 7

• THYROGLOBULIN binds to tyrosine in the follicular lumen
• then Iodination of thyroglobulin’s tyrosine resudes occurs

–> process is catalyzed by THYROID PEROXIDASE and occurs where lumianl aspect of follicular cell contacts the colloid producing monoIODOtyrosine (MIT), and diIODOtyrosine (DIT)

• MIT and DIT undergo coupling reactions to from T3 or T4

Question 8

describe teh release of thyroid hormoens

Answer 8

• anterior pituitary gland basophils release TSH which travels through blood to thyroid gland
• endocytososis of colloid, forming colloidal droplets
• Following endocytosism thyroglobulin may be processed by several pathways:

–> lysosomal pathway

–> transepithelial pathway

Question 9

describe Lysosomal pathway (main pathway

Answer 9

• vesicles enclosing colloid unite with endosomes
• endosomes contain proteases which split iodinated tyrosine resudes from thyroglobulin
• iodinated tyrosine resiues are relased into the cytoplasm as MIT, DIT or T3 and t4
• Enzyme iodotyrosine dehalogenase splits the iodine from the free MIT and DIT and are recycled
• T3 and T4 are liberated from follicualr cell basal membrane into blood

–> T4 is ONLY produced by thyroid follicular cells

–> most of T3 is produced via conversion from T4 by liver, heart, kidney

Question 10

describe transepithelial pathway

Answer 10

• Thyroglobulin binds to megalin (transmembrane protein receptor lcoated on apical cell membrane
• thyroglobulin evades/bypasses the lysosomal pathway and is endocytic vesciels are transported to the basolateral membrane of the follicular cell
• small amounts of T3 and T4 bound to thyroglobulin are released from the basal follicular cell membrane into the blood and lymphatics capillaries

Question 11

Hyperthyroidism (GRAVES DISEASE)

Answer 11

• Autoantibodies (IgG) binds to TSH receptors –> increase colloid uptake –> excessive amounts of thyroid hromones in circulation

–> results in exophthalamos and enlarged thyroid glands

• Fibrosis of rectus muscles (LCT accumualtion behind eyeball)
• > no widespread fibrosis of skeletal muscles

Question 12

Effects of T3 and T4

Answer 12

• Increase = cellular metabolism, growth rate, mental activity
• Stimulate = endocrine gland functions, carbohydrate metabolism
• Decrease in formation of phospholipids and triglycerides
• enhance the synthesis of cholesterol
• Increase formation of fatty acids

Question 13

result of increase in thyroid hormones

Answer 13

• decrease in body weight
• increase in HR, metabolism, respiration, muscle function, appetitie

Question 14

result of VERY HIGH levles of thyroid hormoens

Answer 14

• muscle tremors, fatigue, impotence, abnormal menstrual bleeding in women

Question 15

Chief cells

Answer 15

• Eosinophilic, lipofuscin pigment

- secretory granules include parathyroid hormone (PTH)

• Ribosomes of RER manufacture Preproparathyroid hormones –> Splits as it is carried to lumen to form proparathyroid hormone + polypeptide
• enters GA it is plit one more time to form PTH + polypeptide

Question 16

Oxyphil cells

Answer 16

• function unknown
• may be dormant, inactive cells
• Intensively eosinophilic (due to mitochondria)

Question 17

physiologic effect of PTH

Answer 17

• regulates calcium and phosphate levels in the blood
• IT INCREASES BLOOD CALCIUM LEVEL AND SIMULTANEOUSLY DECREASES SERUM PHOSPHATE

Question 18

PTH effects on bone

Answer 18

• PTH attaches to osteoblast receptors causing osteoblasts to RELEASE OSTEOCLAST-STIMULTING FACTOR, which triggers osteoclast activity

–> freeing calcium from bone to enter the blood stream

Question 19

PTH effects in kidney

Answer 19

• prevents calcium loss in the urin
• Promotes phosphate loss in the urine

Question 20

PTH effects in GI

Answer 20

• regulate the formation of vitamine D in the kidneys, PTH controls the rate of calcium absorption from the GI
• vit D facilitates Ca++ absorption from the GI

Question 21

PTH vs Calcitonin

Answer 21

• reciprocal effects
• PTH increases low calcium
• calcitonin decreases elevated calcium

**complete removal of parathyroid glands willd rop blood calcium levels, this will cause tetanic contraction of muscles, including the laryngeal and respiratory muscles that will result in death**

Question 22

islets of langerhans

Answer 22

• alpha = glucagon: increase blood glucose levels
• Beta cells = insulin: decrease blood glucose levels
• Delta cells = Somatostatin:

–> paracrine: inhibits hormones release by slpha and beta cells

–> endocrine: reduces smooth muscle contraction of digestive tract and gallbladder

• PP cells = pancreatic polypeptide: inhibits pancreatic exocrine secretions
• G cells = gastrin = stimualtes syntheiss of HCI by parietal cells in the stomach mucosa