G6PDH deficiency Flashcards
the pentose phosphate pathway starts from
Glucose- 6 Phosphate
the PPP is an important source of NADPH required for
- reducing power for biosynthesis
- maintenance of GSH levels
- detoxification reactions
PPP produceds
C5- sugar ribose
ribose is required for
nucleotides
DNA & RNA
rate limiting enzyme of PPP
glucose- 6- phosphate dehydrogenase (G6PDH)
Why does depletion of NADPH lead to compromised defences against oxidative damage?
Key cellular defence mechanisms against oxidative damage require NADPH for function:
- glutathione (GSH) reductase
- catalase
- thioltransferase system
glutathione reductase
glutathione reductase uses NADPH as electron donor
catalase
NADPH is a structural component of catalase
glutathione is a
tripeptide synthesised by body to protect agaisnt oxidative damage
how does GSH need NADPH
1) Thiol group of Cys (on GSH) donates e- to ROS
2) GSH then reacts with another GSH to form disulphide (GSSG)
3) GSSG reduced back to GSH by glutathione reductese which catalyses the transfer of electrons from NADPH to disulphide bone
PPP therefore essential
in protecting against free radocal damage
outline how G6PDH deficiency makes an individual vulnerable to oxidative damage
1) decreased G6PDH activity limits the amount of NADPH
2) NADPH required for reduction of oxidised glutathione (GSSG) back to reduced glutathione (GSH)
3) lower GSH means less protection against damage from oxidative stress
what can cause oxidative stress
infection
drugs (anti-malarials)
broad beans
symptoms and signs of G6PDH deficiency
- anaemia
- jaundice
- dark urine
- heinz bodies
G6PDH deficiency and anaemia
decreased Hb conc due to increase protein damage and lipid peroxidation causing haemolysis
- increase in bilirubin cause jaundice
- increase reticulocyte count due to increased RBC production to keep Hb up
