Identification of CYP4A11 as the major lauric acid omega-hydroxylase in human liver microsomes

Human liver microsomes are capable of oxidizing lauric acid (laurate), a model medium-chain fatty acid, at both the omega- and omega-1 positions to form 12- and 11-hydroxylaurate, respectively. These laurate hydroxylation reactions are apparently catalyzed by distinct P450 enzymes. While the P450 responsible for microsomal laurate omega-1 hydroxylation in human liver has been identified as CYP2E1, the enzyme catalyzing omega-hydroxylation remains poorly defined. To that end, we employed conventional purification and immunochemical techniques to characterize the major hepatic laurate omega-hydroxylase in humans. Western blotting with rat CYP4A1 antibodies was used to monitor a cross-reactive P450 protein (M(r) = 52 kDa) during its isolation from human liver microsomes. The purified enzyme (7.4 nmol P450/mg protein) had an NH2-terminal amino acid sequence identical to that predicted from the human CYP4A11 cDNA over the first 20 residues found. Upon reconstitution with P450 reductase and cytochrome b5, CYP4A11 proved to be a potent laurate omega-hydroxylase, exhibiting a turnover rate of 45.7 nmol 12-hydroxylaurate formed/min/nmol P450 (12-fold greater than intact microsomes), while catalyzing the omega-1 hydroxylation reaction at much lower rates (5.4 nmol 11-hydroxylaurate formed/min/nmol P450). Analysis of the laurate omega-hydroxylation reaction in human liver microsomes revealed kinetic parameters (a lone Km of 48.9 microM with a VMAX of 3.72 nmol 12-hydroxylaurate formed/min/nmol P450) consistent with catalysis by CYP4A11. In fact, incubation of human liver microsomes with antibodies raised to CYP4A11 resulted in nearly 85% inhibition of laurate omega-hydroxylase activity while omega-1 hydroxylase activity remained unaffected. Furthermore, a strong correlation (r = 0.89; P < 0.001) was found between immunochemically determined CYP4A11 content and laurate omega-hydroxylase activity in liver samples from 11 different subjects. From the foregoing, it appears that CYP4A11 is the principle laurate omega-hydroxylating enzyme expressed in human liver.     

Treatment of wastewater containing Pb and Fe using ion‐exchange techniques

Treatment of wastewater containing lead and iron was examined using two different ion‐exchange resins namely Duolite ES 467 (containing amino‐phosphonic functional groups) and a chelating ion‐exchange resin (containing hydroxamic acid functional groups). Initially different sorption parameters such as contact time, pH, concentrations of sorbent, sorbate and chloride ion were studied. The sorption kinetics was observed to be fast and equilibrium could be reached within 30 min. Lead sorption efficiency increased with increase in pH whereas the opposite trend was observed with iron. The presence of chloride ions greatly reduced the Pb sorption efficiency in the case of Duolite ES 467. Column studies were carried out to recover Pb and Fe individually using Duolite ES 467 resin. The maximum uptake of Pb at pH 2 and 3 was observed to be 11.63 and 33.96 g dm^?3 of resin respectively. Similarly, for Fe at pH 2 and 3 the uptake was observed to be 10.07 and 6.96 g dm^?3 of resin respectively. In the presence of chloride ions, column studies were carried out using Duolite ES 467 for iron and chelating ion‐exchange resin containing hydroxamic acid functional groups for lead sorption. Hydroxamic acid resin's loading capacity remains constant for at least up to 20 cycles. Copyright © 2005 Society of Chemical Industry     

Computer-aided veterinary learning at the University of Cambridge

An approach of computer-assisted learning in veterinary education at the University of Cambridge, involving the development of four types of learning module, is outlined. A tutorial on regional perineural anaesthesia in the horse, based on the familiar tape-slide format but with significant improvements, is described. A question and answer self-assessment package and a computer-based 'digital lecture' are also discussed, together with a case simulation involving the investigation of a polydipsic dog. All the tutorials were developed using standard software packages and image digitising processes. The philosophy behind the development of these computer-assisted learning packages is discussed.