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- 1. UREA FORMATION 300 Level BY: MRS A. O. FADIPE BSc, AIMLS, NIST, PGDE, MSc.
- 3. INTRODUCTION • • Almost 80% of the nitrogen excreted is in the form of urea which is produced through a series of reactions in occuring in the cytosol and mitochondrial matrix of the liver cells. These reactions are collectively called the UREA CYCLE or KREBS –HENSELEIT CYCLE.
- 4. CONTD • • • Ammonia is a toxic product of nitrogen metabolism which should be removed from the body. The urea cycle or ornithine cycle converts excess ammonia into urea in the mitochondrial of liver cells. The urea formed then enters the blood stream, is been filtered by the kidneys and is ultimately excreted in the urine.
- 5. UREA FORMATION • • The overall reaction for urea formation from ammonia is as follows: 2 ammonia + CO2 + 3 ATP → urea + water +3 ADP
- 6. STEPS IN THE UREA CYCLE • • The urea cycle is a series of five reactions catalysed by several key enzymes . The first two steps in the cycle take place in the mitochondrial matrix while the rest of the steps take place in the cytosol.
- 7. CONTD • • • • • Ammonia is formed by the breakdown of amino acids/gut bacteria. The mitochondrial stage: Carbamoyl phosphate is formed from ammonia and bicarbonate, by carbamoyl phosphate synthetase (CPS). Ornithine transcarbamoylase (OTC) condenses carbamoyl phosphate and ornithine to form Citrulline. Citrulline is then transported to the cytosol by SLC25A15
- 8. CONTD • • • • The cytosolic stage: Argininosuccinate synthetase (AS) condenses citrulline and aspartate to form Argininosuccinate. Argininosuccinate is broken down into arginine and fumarate by Argininosuccinatelyase (AL). Arginine is broken down into urea and ornithine by arginase. Ornithine translocase transports ornithine into the mitochondria.
- 9. IN THE MITOCHONDRIAL • • The Mitochondrial stage: The first two steps of the urea cycle occur in the mitochondria of the cell. First, the enzyme CPS takes ammonia and bicarbonate and forms carbamoyl phosphate with the use of adenosine triphosphate (ATP). This is the step in the cycle that determines how fast the cycle progresses. N-acetylglucosamine is also required for CPS to function, and functions as a regulator for the formation of urea. OTC then condenses carbamoyl phosphate and ornithine, which forms citrulline. This citrulline is then moved out of the mitochondria into the cytosol of the cell by the transporter SLC25A15
- 10. IN THE CYTOPLASM • • • The cytosolic stage: AS takes the citrulline formed in the mitochondrial stage and condenses it with aspartate to form Argininosuccinate. This occurs by the formation of an intermediate, Citrulline-AMP. Argininosuccinate is then broken into arginine and fumarate by AL. Fumarate is then incorporated into another metabolic cycle, the tricarboxylic acid (TCA) cycle. The TCA cycle, which is also known as the citric acid cycle or the Krebs cycle, can then reform aspartate, which is used by AS. Arginine is then further broken down into urea and ornithine by arginase. Arginine can also be acquired from the diet, and this can also be taken in by the liver cells and broken down into urea and ornithine by arginase
- 11. CONTD • The ornithine is then transported into the mitochondria by ornithine translocase. There, it is used by OTC again to form citrulline. The citrulline is then processed to form urea and ornithine again, and the cycle continues. During the cycle, urea is the only new product which is formed, while all other molecules used in the cycle are recycled.
- 12. PATHOLOGY OF U/C • What happens when the urea cycle goes wrong? If there is a problem with the urea cycle, then the level of ammonia in the blood will rise, causing hyperammonemia. Ammonia is able to cross the barrier between the bloodstream and the brain. Once it enters the brain, it can stop the TCA cycle by depleting one of the metabolites, α- ketoglutarate. This means that these brain cells cannot make energy, ultimately leading to their death. This eventually will lead to neurological problems, which can be as severe as irreversible brain damage
- 13. UREA CYCLE DEFECTS • • Problems can arise as a result of damage to the liver (cirrhosis) or by an inherited defect in one of the above enzymes. In both cases, the level of ammonia rises with the potential consequences previously detailed. Inherited urea cycle defects are part of “inborn errors in metabolism”, and are known as “urea cycle disorders.” Symptoms usually present in newborns around 24-48 hours after birth. The most severe symptoms are seen in newborns with a defect in CPS.
- 14. SUMMARY OF STEPS INVOLVED IN UREA FORMATION • • • • In the first step ,ammonia produced in the mitochondrial is converted to Carbomyl phosphate by an enzyme called Carbomyl synthetase I NH3 + Co2 + 2 ATP → CarbomylPhosphate + 2ADP +Pi The 2nd step is the transfer of a carbomyl group from carbomylphosphate to ornithine to form citrulline. This step is catalysed by the enzyme ornithine transcarbomylase ( OTC ) .
- 15. 2ND STEP • • • The reaction is given as follows: Carbomylphosphate + ornithine → citrulline + pi. The citrulline thus formed is released into the cytosol for use in the rest of the steps of the cycle.
- 16. 3RD STEP • • The 3rd steps is catalysed by an enzyme called arginosuccinate synthetase which uses citrulline and ATP to form a citrully AMP intermediate which reacts with an amino group from aspartate to produce arginosuccinate. Citrulline + ATP + Aspartate → Arginosuccinate + AMP Ppi.
- 17. 4TH STEP • • The 4th step is the cleavage of Arginosuccinate to form fumarate and arginine. Arginosuccinatelyase is the enzyme catalysing the reaction. It is represented thus: ARGINOSUCCINATE → ARGININE + FUMARATE
- 18. 5TH STEP • • • • Arginine → urea + ornithine The overall reaction is given as : 2NH3 + Co2 3 ATP → Urea +2 ADP+ AMP + PPi + 2Pi The 5th and the last step of urea cycle, arginine is hydrolysed to form urea and ornithine. This is catalysed by arginase and is given as follows: