PHASE TWO CHANGES

The phase two changes involve linking a water-solubilizing group to the drug. The common groups are glucuronic acid 2.2, which is provided by uridine-5-diphosphate a-D-glucuronic acid, the sulfate 2.3, which is provided by 30-phosphoadenosine-50-phosphonosulfate and the amino acids, glycine 2.1 and taurine. An important conjugation utilizes the tripeptide glutathione 2.4.

This possesses a thiol, which is a powerful nucleophile that can add to electron-deficient carbon atoms. Since electron-deficient centres can be created by oxidative processes and might otherwise be attacked by free amino groups of nucleic acids and proteins, the glutathione conjugation serves to protect the liver from damage. An example is provided by the metabolism of paracetamol. Oxidation of paracetamol takes place on the nitrogen with the formation of an N–OH 2.35 and this leads, after elimination to the quinone-imine 2.36. The latter is very electron-deficient and readily adds nucleophiles such as the NH2 from a protein. The consequence of this addition is that the paracetamol becomes bound to the liver causing liver damage. Glutathione 2.4 provides protection against this by adding to the quinone imine 2.36 to give a conjugate 2.37. If there is insufficient glutathione in the liver and the amount available is exhausted as in a paracetamol overdose, liver damage with potentially fatal consequences, ensues. Treatment involves the rapid administration of a thiol containing drug such as methionine or acetylcysteine.

مواضيع ذات صلة

Alzheimer’s Disease

THE TREATMENT OF HYPERTENSION

β1-ADRENERGIC ANTAGONISTS ‘ β-BLOCKERS’

β-ADRENERGIC RECEPTOR AGONISTS – THE DEVELOPMENT OF ANTI-ASTHMA DRUGS

α-ADRENERGIC RECEPTOR AGONISTS

THE ADRENERGIC RECEPTORS

CATECHOLAMINES AS NEUROTRANSMITTERS

LOCAL ANAESTHETICS

MUSCARINIC AGONISTS

NEUROMUSCULAR BLOCKING AGENTS IN SURGERY

ACETYLCHOLINE

AGONISTS AND ANTAGONISTS