12 LÆKNABLAÐIÐ 1996; 82/FYLGIRIT 31 Gastroenterology in the new millennium Ingvar Bjarnason King's College School of Medicine & Dentistry. De- partment of Clinical Biochemistry. Advances in clinical gastroenterology liave been rather slow in the last decade. However, a number of recent developments in molecular biology seem destined to be translated into clinical practice in the next few years with major implications. Here I will touch on two aspects of research which is already posed to change the face of gastroenterology. The adverse effects of NSAIDs, effective for con- trol of joint pain and inflammation, prescribed in abundance by rheumatologists and general physi- cians, account for some 10-30% of gastroenterolog- ical referrals. Five years ago it became evident that there were two forms of cyclo-oxygenase (Cox), namely constitutively expressed Cox-1 and Cox-2 which is specifically expressed at sites of inflamma- tion by the presence of soluble mediators of in- flammation, etc. It is then suggested that NSAID- induced inhibition of Cox-1 accounts for their side effects whilst inhibition of Cox-2 might account for their desired therapeutic effect. A number of bi- ological observations are consistent with these sug- gestions. The genes coding for Cox-1 & 2 are on separate chromosomes and well preserved in differ- ent species. The Cox-1 gene has a simple regulation of expression whilst the Cox-2 gene is more complex with a TATA box and regions containing a number of well known sequences for expression- stimula- tion, in keeping with its inducibility. The Cox-1 & 2 enzymes have identical rates of activity in respect of affinity and specificity for its major substrate arachi- donic acid. Cox-1 & 2 have a 70-80% homology in respect of amino acid sequences. The three dimen- sional structure of Cox shows 3 main themes. A catalytic module which has the two separate active sites; a Cox domain and a peroxidase domain and which does not differ significantly between Cox-1 and 2. Secondly a EGF module of unknown function and lastly a membrane binding region which differs between Cox-1 & 2. It is the characteristics of the membrane binding domain which determines the subcellular location of Cox-1 & 2 in the endoplasmic reticulum and nuclear membrane, respectively. From its anchorage in the lipid bi-layer there is a narrow hydrophilic channel which leads to the active sites of Cox-1 & 2 (a tyrosine which facilitates hydro- gen removal from arachidonic acid). Conventional NS^IDs, all of which (apart from piroxicams) have a carboxylic group, bind to argi- nine (position 120 and 106, respectively) and thereby effectively block the access of arachidonic acid to the active site accounting for their action. Aspirin on the other hand acetylates a serine residue (position 530). Selective substitution of arginine and serine with other amion-acids specifically abolishes the an- tiinflammatory activity of NSAIDs and aspirin, re- spectively. The three dimensional structure of Cox-1 & 2 (Cox-peroxidase domain) differs only in respect of the width of the hydrophobic channel, Cox-2 being broader. This is, however, associated with profound differences in the relative affinity of NSAIDs for Cox-1 & 2. Indomethacin, piroxicam, etc. have preferential affinity for Cox-1, diclofenac, naproxen, 6-MNA and meloxicam have roughly equal affinity for the two isoforms or slightly greater affinity for Cox-2. Prior to elucidation of the three dimensional structure of the Cox enzymes there was a group of drugs, with a similar chemical structure, which appeared anti- inflammatory without the ad- verse effects of conventional Cox-1 inhibitors. We now know that these are the highly specific Cox-2 inhibitor which have a 100 to 1000 greater affinity for Cox-2 than Cox-1. Introduction of the Cox-2 selec- tive NSAIDs into clinical practice was initially ham- pered by the lack of confidence and knowledge of action of these drugs. The problem facing the phar- maceuticals is now not so niuch in developing new highly specific Cox-2 inhibitors, there are virtually hundreds that have been specifically designed, but

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