Catabolism of Purines &
GOUT
Dr. N. SivaranjaniAsst. Prof
Dr. N. Sivaranjani 1
• Nucleotides of cell undergo continual turnover.
Nucleotides
Nucleosides
Free bases + R-1-P
• Some of bases are reused to form nucleotides by Salvage pathway.
• Others are degraded to products that are excreted.
• Uric acid is end product of purine catabolism
Nucleotidase
Nucleoside Phosphorylase
Dr. N. Sivaranjani 2
AMP IMP
Nucleotidase NucleotidaseH2O
H2O
PiPi
Adenosine Inosine
H2O
Adenosine deaminase(ADA)
NH4
Hypoxanthine
PiPurine nucleoside phosphorylase (PNP)Ribose 1 phosphateRibose
N
N
N
N
NH2
Ribose
N
N
N
HN
O
NH
N
N
HN
O
R-5-P
N
N
N
N
NH2
Adenosine is not degraded by PNP, but converted to inosine & further metabolized Dr. N. Sivaranjani 3
Hypoxanthine
Xanthine
Xanthine Oxidase
H2O + O2
H2O2
H2O + O2
H2O2Xanthine Oxidase
URIC ACID
GMP
Nucleotidase
Guanosine
Guanine
Guanine deaminase
H2ONH3
Purine nucleoside phosphorylase
H2O
Pi
Pi
Ribose 1 phosphate
2,6,8 –trioxy purine
N
N
N
HN
O
NH
N
NH
HN
O
NH
NH
NH
HN
O
O
O
O
NH
N
N
HN
O
NH2
Dr. N. Sivaranjani 4
AMP
Adenosine
Hypoxanthine
Guanosine
Guanine
GMP
Xanthine
URIC ACID
Purine Bases
IMP
Inosine
XMP Xanthosine
Adenine nucleotide are degraded as Hypoxanthine
Guanine nucleotide are degraded as Xanthine
Dr. N. Sivaranjani 5
Xanthine oxidase
• Found in LIVER & Small intestine
• Metallo flavoprotein
• Contains FAD, Molybdenum and Iron
• This reaction produces H2O2 (reactive oxygen species)
H2O2 H2O + O2Catalase
Hypoxanthine
Xanthine
URIC ACID
XO
XO
Dr. N. Sivaranjani 6
• The end product of purine catabolism is uric acid in humans.
• N excreted as uric acid is very little in humans, as humans are ureotelic (nitrogen is excreted as urea).
• In birds, amphibians and reptiles are uricotelic – they excrete uric acid as major end product of purine and amino acid catabolism.
• Lower primates and some mammals have the enzyme uricase which converts uric acid to allantoin (which is more soluble).
Dr. N. Sivaranjani 7
Sources and excretion of Uric acid
Gut
Breakdown of Endogenous purine De novo synthesis – 400 mg Diet -300 mg
Purine nucleotides
URIC ACID
UricolysisRenal Excretion
Catabolized
Body uric acid pool in Men 1200 mg,Female – 600 mg
2/3 CO2 + NH3
Dr. N. Sivaranjani 8
Normal serum Uric acid concentration :
• 3 - 7 mg /dl in males , 2 - 5 mg/dl in females
• Uric acid pool –It is on average of 1200 mg
Excretion - 500 to 700 mg /day excreted
• Uric acid is cleared by both glomerular filtration and tubular secretion.
• Uric acid acts as Natural ANTIOXIDANT Dr. N. Sivaranjani 9
Hyperuricemia and gout:
• Hyperuricemia –
• increased serum uric acid levels above 7 mg/dl in Men & above 6 mg/dl in women.
Causes – Excessive Alcohol consumption, CRF, inherited metabolic disorders, Malignancies, Pre-eclampsia.
Gout is a metabolic disorder of purine catabolism, resulting in overproduction of uric acid.
• At physiological pH , uric acid is found in a minimal soluble form as Mono sodium urates – easily ppt at lower temperature.
Dr. N. Sivaranjani 10
• Types of gout :
Primary gout :
Inherited - 90% ,due to an Inborn error of metabolism caused by defective enzymes of Purine synthesis.
Idiopathic - 10 % cases
1) Variant form of PRPP synthetase- not subject to allosteric control.
2) Variant of PRPP glutamyl amidotransferase - not sensitive to feedback control.
3) Glucose 6 phosphatase deficiency - Von Gierke’s disease G-6-P enters HMP shunt produces excess R-5-P & PRPP – purine overproduction. Lactic acidosis in Von Gierke’s disease – impairs UA excretion.
Dr. N. Sivaranjani 11
4) Deficiency of enzymes of salvage pathway –HGPRT deficiency leading to Lesch-Nyhan syndrome.
Dec. utilization of purines by salvage pathway – diverts PRPP to purine synthesis
Dec. salvage pathway – dec. IMP & GMP – impairs feedback reg. of denovosynthesis of purine – leads to overproduction of purines.
5) Elevation of Glutathione reductase
It coverts oxidized Glutathione to reduced form by utilizing NADPH from HMP shunt.
Abnormal activity of GR - Inc. NADP+ - Inc. HMP shunt – which rises R-5-P and PRPP synthesis – overproduction of purines.
Dr. N. Sivaranjani 12
Glucose 6 phosphate
HMP shunt
Ribose 5 phosphate
NADP+
NADPH
2 GSH
G-S-S-G
PRPPPRPP synthetase
Glutamine
5-Phosphoribosylamine
Inosine monophosphate
GMP AMP Adenine
Hypoxanthine XanthineURIC ACID XO XO
Guanine HGPRT
Hypoxanthine
APRT
PRPP Glutamylamidotransferase
Glutathione reductase
Glucose
G-6-phosphatase
Dr. N. Sivaranjani 13
Secondary gout:
• Due to various disease causing increased synthesis or decreased excretion of uric acid.
a) Overproduction of uric acid – due to enhanced turn over rate of nucleic acids
i) Increased tissue turn over due to psoriasis.
ii) Rapidly growing malignant tissues - CANCER - Leukemias,
polycythemia, lymphomas.
iii) Increased tissue break down – after treatment for large tumor
masses –radiotherapy & chemotherapy, trauma and starvation.Dr. N. Sivaranjani 14
b) Reduced excretion of uric acid
i) Chronic Renal failure due to reduced GFR.
ii) Increased alcohol consumption leads to lactic acidosis - Lactic acid decreases tubular excretion of uric acid.
iii) Ketoacidosis – decreases the tubular excretion of uric acid
iv) Thiazide diuretics inhibits tubular secretion of uric acid.Dr. N. Sivaranjani 15
Clinical features:
• Due to the low solubility of uric acid.
• More common in Males, post menopausal women.• Typical gouty arthritis affects first metatarso
phalangeal joint (GREAT TOE) – Classical site
• In Gout , serum urate levels exceed solubility limit, leading to formation of MSU crystals and get deposited in joints.
These deposits are called Tophi.
inflammation of joints
painful acute gouty arthritis chronic gouty arthritis.
• Other complications like urolithiasis and renal damage.Dr. N. Sivaranjani 16
increased serum uric acid
Mono-sodium urate crystals
Deposited in areas where body temperature is lower – Tophi
Gouty arthritis
Deposited in Kidney
Renal calculi /stone Renal damage
” redness, swelling, and pain“-hallmarks of a gout attack.
Severe form – body uric acid pool reach 20,000 -30,000 mg
Dr. N. Sivaranjani 17
Often HISTORY is - patient have few drinks at night , go to sleep symptomless , but are awakened during early hrs by severe joint pains.
• Hyperuricemia doesn't always cause gout. Over the course of yrs, sharp uratecrystals build up in the synovial fluid of the joints.
Precipitating event - infection, surgery, stress or often heavy ALCOHOL drink.
Dr. N. Sivaranjani 18
Investigations :
• Serum uric acid level -increased
• Microscopic Examination of Synovial
fluid reveals uric acid crystals - rod / needle –shaped crystals.
• Birefringent crystals under polar microscope is diagnostic.
Dr. N. Sivaranjani 19
Treatment of gout :
• Low intake of Purine diet- like red meat, acidy fruits and vegetables, lentils
• Restrict Alcohol
• Consume plenty of Water
Drugs:
1. Anti-inflammatory drugs - Colchicine is used for treatment of gouty arthritis. NSAID - indomethacin , ibuprofen. Corticosteroids also useful for acute attacks.
2. Uricosuric drugs – Probenecid.
Dr. N. Sivaranjani 20
NH
C
CN
N
C
C
HN
O
NH
C
CC
N
N
C
HN
O
NH
C
CN
N
C
C
HN
OHypoxanthine
Allopurinol Alloxanthine
OH
XO
3. Xanthine oxidase inhibitors – ALLOPURINOL
drug of choice for treatment of Gout.
It is structural analog of hypoxanthine.
Competitively inhibits XO enzyme.
Suicide inhibition
Hypoxanthine , Xanthine are more soluble and excreted in urine.
Dr. N. Sivaranjani 21
Pseudogout :
• Serum uric acid level normal.
• Symptoms as seen in gout.
• But it is characterized by deposition of calcium – pyrophosphate crystals in joints.
Dr. N. Sivaranjani 22
Lesch-Nyhan syndrome:
• Inherited X-linked recessive disorder, affects only males
• Enzyme defect – hypoxanthine guanine phoshoribosyl transferase (HGPRT)
• Characterized by excess production of uric acid leads to GOUT.
• Self mutilation – bite their fingers and lips
• Neurological abnormalities like mental -retardation, aggressive behavior , learning disabilities occur.
• Neurological symptoms may be due to dependence of brain on the salvage pathway.
• Nephrolithiasis – leads to renal failure.Dr. N. Sivaranjani 23
Hypouricemia
Decreased in uric acid level
Xanthinuria
• Xanthine oxidase deficiency, due to either genetic defect or due to severe LIVER damage.
• Inc. excretion of xanthine & hypoxanthine
• So decreased uric acid
• Xanthine lithiasis occur in severe XO def.
Hypoxanthine Xanthine URIC ACID XO XO
Dr. N. Sivaranjani 24
Adenosine deaminase deficiency
• Leads to Both T and B cells are dysfunctional – Severe Combined Immunodeficiency (SCID )
Adenosine Inosine , dAdenosine dInosine
• Immune dysfunction is due to high levels of deoxy Adenosine
• Deoxyadenosine is converted to dAMP, dADP, dATP.
• dATP allosterically inhibits Ribonucleotide reductase - decreases DNA synthesis.
ADA ADA
Dr. N. Sivaranjani 25
Purine-nucleoside phosphorylase deficeincy
• PNP deficiency
Inosine Hypoxanthine , Guanosine Guanine
uric acid formation is decreased.
• Impaired T-cells function with normal B cells function.
• Here dGTP accumulates which inhibits Ribonucleotide reductase.
PNP PNP
Dr. N. Sivaranjani 26
ADA and PNP deficiency
• both are inherited as autosomal recessive
• Hypouricemia seen
• Both associated with symptoms of recurrent and chronic infections
Dr. N. Sivaranjani 27
Dr. N. Sivaranjani 28
Dr. N. Sivaranjani 29