Redox biology

Question 1

What does “redox” stand for?

Answer 1

REDuction

OXidation

Question 2

What is reduction?

Answer 2

gain of electrons

Question 3

what is oxidation?

Answer 3

loss of electrons

Question 4

What are the two types pf reactive oxygen species (ROS)?

Answer 4

> free radicals

> not free radical

Question 5

Describe a free radical and give an example

Answer 5

any species capable of independent existence that contains one or more unpaired electrons
e.g. superoxide or nitric oxide

Question 6

Give an example of a not free radical reactive oxygen species

Answer 6

hydrogen peroxide

Question 7

Give some examples of antioxidants

Answer 7

dietary : vitamin C + E

enzymatic : superoxide dismutase

Question 8

What is oxidative stress?

Answer 8

when the balance of reactive oxygen species and antioxidants falls in favour of the reactive oxygen species

ROS > antioxidant defence

Question 9

So we want zero reactive oxygen species?

Answer 9

No

some ROS are needed for cell signalling and the body’s immune response

Question 10

How can too much ROS be harmful?

Answer 10

causes damage and disease

Question 11

How are ROS concentration and activity levels associated?

Answer 11

ROS conc drops in an arc shape from sedentary to active / v.active.

ROS conc starts to increase again once activity levels are very extreme but not to levels of sedentary

Two ends of activity spectrum = high ROS conc

Question 12

Outline findings of Michailidis et al (2007) into the exercise induced plasma antioxidant response

Answer 12

Found large lipid damage/lipid peroxidation (peaking at 2 hours) post-exercise.
Slower climb and fall for protein which has less of a response (peaking at 6 hours)

Question 13

Why should you observe the traces of multiple antioxidants?

Answer 13

They may vary hugely, you could make many conclusions based off the observations of a singular marker.

Question 14

What is the plasma antioxidant response to exercise?

Answer 14

Exercise = AMP build up
AMP converted into Hypoxanthine, which is converted into Xanthine.
Xanthine is converted into Uric Acid which triggers an antioxidant response

Question 15

How does the plasma antioxidant response to exercise vary in high and low oxygen conditions?

Answer 15

Vary in terms of what is used and produced to cause the conversions of Hypoxanthine to Xanthine and Xanthine to Uric Acid.

High O2 used NAD+ and converts it to NADH
Low O2 takes O2 and converts it to O2- (superoxide)

Question 16

What are the results of superoxide production during the plasma antioxidant response to exercise when there is low O2?

Answer 16

Superoxide is a ROS, excess production of it leads to oxidative stress.

Question 17

What is the name of the system when hypoxanthine is converted to uric acid under low oxygen conditions?

Answer 17

xanthine oxidase system

Question 18

What is the name of the system when hypoxanthine is converted to uric acid under high oxygen conditions?

Answer 18

xanthine dehydrogenase system

Question 19

How long does the damage from oxidative stress last?

Answer 19

varying amounts of time
- Tsai et al (2011)

Carbonylated plasma proteins levels remain significantly elevated for up to 28 days post ultra-endurance exercise
- Turner et al (2011)

Question 20

Cite some research and explain whether it is beneficial or not to try and stop ROS production (xanthine oxidase)

Answer 20

Gomez-Cabrera et al (2005)

Rats divided into 3 groups control, exercise to exhaustion and exercise to exhaustion with allopurinol injection to prevent uric acid build up (stop xanthine oxidase)

> Inhibiting xanthine oxidase prevents exercise-induced oxidative stress, which is critical for exercise adaptations

Question 21

Should we supplement with dietary antioxidants?

YES or NO?!?

Answer 21

Hold you horses BUSTER!
This is a complex and “hotly debated issue in redox biology”.
I’m going to need a bit more information first

Question 22

How many antioxidants improve performance?

Answer 22

improving….
recovery
fatigue
muscle damage

Question 23

What bodily processes may antioxidants impair?

Answer 23

cellular defences
insulin sensitivity
mitochondrial biogenesis

Question 24

What is mitochondrial biogenesis?

Answer 24

process by where mitochondria increase their individual mitochondrial mass and copy number to generate more ATP in response to greater energy expenditure

Question 25

Give some evidence of why we CAN take antioxidants for performance

Answer 25

12 week intervention
antioxidants vs control
found no difference between groups in markers of adaptation to exercise

no difference in changes to insulin sensitivity or mitochondrial biogenesis

• Yfanti et al (2011)

Question 26

Give some evidence of why we should NOT take antioxidants

Answer 26

Paulsen et al (2014)
11 weeks training, control vs antioxidants.
>VO2max and body comp improved similarly.
>antioxidant supplementation led to impairment of signalling and mitochondrial biogenesis markers.

Question 27

What effect does exercise have on ROS production?

Answer 27

more free radicals post-exercise

Question 28

Why is it difficult to detect free radicals?

Answer 28

they are highly reactive and extremely short lived

Question 29

How do we assess for free radical production?

Answer 29

search for end/by products of free radical production

Question 30

Give examples of by-products of free radical production

Answer 30

malonyldialdehyde (MDA) in tissues as a result of lipid peroxidation (oxidative degeneration of lipids as a result of free radicals stealing electrons)
Alternatively could measure for pentane in exhaled air as an estimate of extent of lipid peroxidation
Also Glutathione disulphide dimer (GSSG), which is the result of glutathione oxidation

• Sachdev & Davies (2008)

Question 31

Other than xanthine oxidase system, what is a method of free radical production during exercise?

Answer 31

“leak” in the mitochondrial ETC.
molecular oxygen reduced by one electron to form superoxide.
This leak usually actually produces greater levels of superoxide at rest than when VO2 is high.

• Sachdev & Davies (2008)
• Vollaard et al (2005)