Hussain A A, Jona J A, Yamada A, Dittert L W
Department of Medicinal Chemistry and Pharmaceutics, University of Kentucky, Lexington 40536-0082.
Anal Biochem. 1995 Jan 1;224(1):221-6. doi: 10.1006/abio.1995.1033.
Chloramine-T (CAT) is commonly used in the radiolabeling of bioactive molecules by halogenation. CAT may be used either as a solution or in an immobilized form (Iodobeads) to release radioactive elemental iodine or other halogens by oxidation of their salts. CAT has a very high chlorine potential, and it causes oxidative damage to sensitive substrate molecules, such as peptides and proteins. In some cases, the substrates are completely destroyed. To reduce the chlorine potential of CAT, morpholine was mixed with CAT prior to exposure to the substrates. This formed N-chloromorpholine, in situ, which readily reacted with KI to form I2. The kinetics of the formation of N-chloromorpholine from CAT and morpholine were studied spectrophotometrically by following the disappearance of CAT at 250 nm. The reaction was found to be rapid at all pH's from 5 to 11. 1-Aminocyclohexanecarboxylic acid (a model amino acid) decomposed rapidly in the presence of CAT, but there was no decomposition in the presence of N-chloromorpholine. N-Chloromorpholine was compared to CAT solution and Iodobeads for the iodination of L-tyrosine. The formation of mono- and diiodotyrosine were followed by HPLC. On an equimolar basis (0.55 microM), N-chloromorpholine produced a much greater yield of the mono- and diiodinated tyrosine than Iodobeads. Furthermore, decomposition products were observed when tyrosine was exposed to Iodobeads for 15 min. When a CAT solution was used at a higher concentration (5.5 microM), a substantial amount of decomposition occurred, and the yields of the two iodinated species were very small.(ABSTRACT TRUNCATED AT 250 WORDS)
氯胺 -T(CAT)常用于通过卤化作用对生物活性分子进行放射性标记。CAT既可以以溶液形式使用,也可以以固定形式(碘珠)使用,通过氧化其盐类来释放放射性元素碘或其他卤素。CAT具有很高的氯势,会对敏感的底物分子,如肽和蛋白质造成氧化损伤。在某些情况下,底物会被完全破坏。为了降低CAT的氯势,在将其暴露于底物之前,将吗啉与CAT混合。这会原位形成N -氯吗啉,它很容易与KI反应生成I₂。通过在250nm处监测CAT的消失,用分光光度法研究了由CAT和吗啉形成N -氯吗啉的动力学。发现在pH值为5至11的所有情况下,该反应都很快。1 -氨基环己烷羧酸(一种模型氨基酸)在CAT存在下会迅速分解,但在N -氯吗啉存在下不会分解。将N -氯吗啉与CAT溶液和碘珠用于L -酪氨酸的碘化反应进行比较。通过高效液相色谱法跟踪单碘酪氨酸和二碘酪氨酸的形成。在等摩尔基础上(0.55微摩尔),N -氯吗啉生成的单碘和二碘酪氨酸的产率比碘珠高得多。此外,当酪氨酸暴露于碘珠15分钟时,会观察到分解产物。当使用较高浓度(5.5微摩尔)的CAT溶液时,会发生大量分解,两种碘化产物的产率非常小。(摘要截断于250字)
