Week 7: Trace Elements

Question 1

What is carbonic anhydrase?

Answer 1

Family of enzymes

Regulates CO2 in cell (traps it as bicarbonate)
Catalyses:
H2O + CO2 → H+ + HCO3-
Reversible reaction that occurs relatively slowly in the absence of a catalyst

Active site of most carbonic anhydrases
-Contains a zinc ion
= metalloenzymes

Question 2

What is a zinc finger?

Answer 2

• Transcription Factor
• small protein structual motif
• coordination of one ore more zinc ions used to stabilize a fold

Question 3

What are the physiological roles of zinc?

Answer 3

Nucleic acid metabolism
• DNA synthesis and transcription
• Gene regulation
Signalling
• Regulates activity of cAMP and cGMP
• Activates protein kinase C
• Brain, affects NMDA and GABA receptor activity
• Hepatocytes releases calcium from intracellular stores
Extracellular matrix
• Required for activity of MMPs (matrix metalloproteinases)
Membrane function
• Required for membrane stability
Lipid metabolism

Question 4

How does zinc influence synaptic function? (1)

Answer 4

Zinc released from the presynaptic neuron and can act on several receptors on the postsynaptic neuron

Question 4

How does zinc influence synaptic function? (2)

Answer 4

-May diffuse to nearby glial cells
- inhibit EAAT-1 (glutamate transporter)
- increasing amount of glutamate (neurotransmitter)
present in synapse (more glutamate for other receptors)

Question 5

How can Zinc cause brain cell death? and what is the treatment?

Answer 5

In traumatic brain injury/ zinc deficiency (e.g. stroke) there is a release of high levels of zabile zinc in degenrating neurons after brain injury.

Zinc is then released into extracellular environment= cell death

Treatment is zinc chelator > reduces cell death

Question 6

How is zinc important element of apoptotic pathway?

Answer 6

• Cytosolic labile zinc is increased in apoptotic brain cells
• Cytosolic zinc accumulates in apoptotic brain cells during development
• Again, use of zinc chelator injected into rats after birth decreases number of apoptotic cells

Question 7

How much zinc is required per day?

Answer 7

10mg

Question 8

What are the effects of nutritional zinc deficiency?

Answer 8

•Neuropsychiatric effects, depression
• Dermatitis
• Diarrhoea
• Alopecia - spot baldness
• Anorexia
• Impaired taste
• Reduction in immune function
• Infections
• Delayed puberty

Question 9

What are some conditions in which predispose individuals to nutritional zinc deficiency?

Answer 9

• Inadequate intake and absorption of zinc
− Inflammatory bowel disease, biliary obstruction, liver
disease, renal failure
• Malnutrition
• Vegetarianism in combination with poor overall diet
• Therapeutic and synthetic diets (diet with not enough nutrients
E.g. enteral and parenteral nutrition, and diets for
management of inborn errors of metabolism
• Intestinal infestation (bacteria, protozoa, helminths) (these can stop you from absorbing zinc
• Nutrient interactions with dietary components and drugs
− E.g. diuretics and antibiotics

Question 10

Name an inherited zinc deficiency

Answer 10

Acrodermatitis enteropathcia

Question 11

What is acrodermatitis enteropathcia? Name also symptoms and characterisation

Answer 11

Rare genetic disorder autosomal recessive
- Mutation in protein (SLC39A4: zinc uptake
transmembrane protein

• Characterised by:
− Skin inflammation (dermatitis); inflammatory rash
around the mouth and/or anus
− Diarrhoea
− Hair loss (alopecia)

• Malabsorption of zinc through intestinal cells

• Symptoms usually occur:
− Bottle-fed infants: a few days or weeks after birth
− Breast-fed infants: soon after weaning
• Zinc deficiency in premature breast fed babies due
reduced zinc levels of mother’s milk

Question 12

What is the treatment for zinc deficient baby?

Answer 12

IV infusion of zinc e.g. zinc chloride

Regular IV infusions of zinc

Question 13

What is the function of zinc transporters? Where are they located?

Answer 13

Deliver zinc to cell and intracellulr organelles

Transporters located in”
- Plasma Membrane
- Intracellular membranes

Question 14

What are the two main families of zinc?

Answer 14

• Solute carrier 30 (SLC30) [aka Znt, 10 in family]
• Solute carrier 39 (SLC39) [aka ZIP, 14 in family]
− (mutations cause Acrodermatitis enteropathica)

Question 15

Function of Zinc transport (ZnT) or solute carrier 30 (SLC30) family

Answer 15

Controls the efflux of zinc from the cytoplasm out of the cell and from the cytoplasm into vesicles

Question 16

Function of Zinc importer (ZIP) or solute carrier 39A (SLC39A) family

Answer 16

Controls the influx of zinc into the cytoplasm from outside of the cell and from vesicles.

Question 17

What are the benefits of Zinc supplemation?

Answer 17

• Reduces duration and severity of diarrhoea in
malnourished children
• Reduces duration and severity of common cold (immune
system effect)
• May prevent macular degeneration

Question 18

What are symptoms of zinc toxicity?

Answer 18

• Nausea and vomiting
• Gastric and oesophageal bleeding
• Dizziness
• Lethargy
• Fever
• Copper deficiency (competes with copper for binding in RBC
- (metallothionein binding in enterocytes)
• Anaemia
• ‘Metal Fume Fever’
- Welders exposed to zinc oxide fumes
-Flu-like symptoms
-tolerance can develop, although transient

Question 19

How much iodine is needed a day?

Answer 19

150micrograms intake/day

Question 20

Function of iodine

Answer 20

Only confirmed function= substrate for thyroid hormone synthesis

Question 21

Foods that have iodine

Answer 21

Dairy products, seafood, seaweed (kelp), eggs, bread, some vegetables

Question 22

Physiological use of iodine (thyroid)

Answer 22

Follicular cells of thyroid gland
- Produce thyroid hormones T4 and T3
T3- tri-iodothyronine
T4- thyroxine
Synthesised from: tyrosine in combination with iodine

T4 converted to T3 at target tissue

Thyroid hormones enter all cells and bind to nuclear receptors
− Thyroxine-binding receptors: regulate gene
transcription
− Increase metabolic activity
− Stimulate synthesis of mitochondrial enzymes and
increase mitochondrial activity

Question 23

What is a follicle in a thyroid gland?

Answer 23

Structural and functional units

Major thyroid secretory cells arranged into hollow spheres
- Each sphere forms a functional unit called a follicle

Question 24

What is a colloid?

Answer 24

Storage site for thyroid hormones

• Serves as an extracellular storage site (and production) of thyroid hormones

Question 25

What are C cells?

Answer 25

Secrete calcitonin in which regulates calcium level in the blood

Question 26

List the thyroid hormone synthesis and action in order

Answer 26

Thyrotropin-releasing
hormone (TRH) secreted
from the hypothalamus
stimulates thyroid
stimulating hormone

Thyroid stimulating
hormone (TSH) made in the
anterior pituitary gland

Thyroid stimulating
hormone regulates T3 and
T4 synthesis in the thyroid
gland

Question 27

Step by step of synthesis of thyroid hormones

Answer 27

1. Thyroglobulin is synthesized in the rough ER, and follows the secretory pathway to enter the colloid in the lumen of the thyroid follicle by exocytosis.
2. Meanwhile, a sodium-iodide (Na/I) symporter pumps iodide (I−) actively into the cell
3. Iodide enters the follicular lumen from the cytoplasm by the transporter pendrin, in a purportedly passive manner

4 In the collloid, iodide (I-) is oxidized to iodine (I0) by an enzyme called thyroid peroxidase

Iodine (I0) is very reactive and iodinates the thyroglobulin at tyrosyl residues in its protein chain (approx. 120 tyrosyl residues in total).

5. In conjugation, adjacent tyrosyl residues are paired together
6. Thyroglobulin re-enters the follicular cell by endocytosis (T3 and T4 attached)
7. Proteolysis by various proteases liberates thyroxine and tri-iodothryonine molecules. Then enter in blood supply

Question 28

What happens if there is no TSH?

Answer 28

Thyroid atrophies (shrinks)
Consequence: hormones released at very low rate

Question 29

What happens if too much TSH?

Answer 29

thyroid gland hypertrophies

Question 30

What are the long term effects of iodine deficiency? Include symptoms

Answer 30

Thyroid gland adapts to insufficient supply by increasing trapping
• Increase size of gland = Goitre
(overgrowth of gland)
• Not enough thyroid hormone is
produced = Hypothyroidism

Symptoms: dry skin, hair loss,
decreased metabolic rate =
fatigue/lethargy and slowed
reflexes, constipation

Question 31

What is goitre?

Answer 31

Enlargement of thyroid

Most are benign

Question 32

Effects of iodine deficiency in children

Answer 32

In children
• Congenital Iodine deficiency
− Cretinism
− Hypothyroidism with decreased function
of thyroid
• slowing down of mental and
physical activity
• thickening and drying of skin
• Dwarfism
• Mental retardation
• Goitre not present

Question 33

What are the symptoms of iodine toxicity?

Answer 33

Burning of mouth, throat, and stomach, fever, nausea, vomiting, diarrhea, a weak pulse, cyanosis, and coma

Question 34

What is wolff-chaikoff effect?

Answer 34

an effective means of rejecting the large quantities of iodide and therefore preventing the thyroid from synthesizing large quantities of thyroid hormones.