Department of Chemistry, Katholieke Universiteit Leuven, Celestijnenlaan 200f - bus 02404, 3001 Leuven, Belgium.
Chemistry. 2011 Sep 19;17(39):10924-34. doi: 10.1002/chem.201002280.
A visible-light-excitable, ratiometric, brightly fluorescent pH indicator for measurements in the pH range 5-7 has been designed and synthesized by conjugatively linking the BODIPY fluorophore at the 3-position to the pH-sensitive ligand imidazole through an ethenyl bridge. The probe is available as cell membrane permeable methyl ester 8-(4-carbomethoxyphenyl)-4,4-difluoro-3-[2-(1H-imidazol-4-yl)ethenyl]-1,5,7-trimethyl-3a,4a-diaza-4-bora-s-indacene (I) and corresponding water-soluble sodium carboxylate, sodium 8-(4-carboxylatophenyl)-4,4-difluoro-3-[2-(1H-imidazol-4-yl)ethenyl]-1,5,7-trimethyl-3a,4a-diaza-4-bora-s-indacene (II). The fluorescence quantum yield Φ(f) of ester I is very high (0.8-1.0) in the organic solvents tested. The fluorescence lifetime (ca. 4 ns) of I in organic solvents with varying polarity/polarizability (from cyclohexane to acetonitrile) is independent of the solvent with a fluorescence rate constant k(f) of 2.4×10(8) s(-1). Probe I is readily loaded in the cytosol of live cells, where its high fluorescence intensity remains nearly constant over an extended time period. Water-soluble indicator II exhibits two acid-base equilibria in aqueous solution, characterized by pK(a) values of 6.0 and 12.6. The Φ(f) value of II in aqueous solution is high: 0.6 for the cationic and anionic forms of the imidazole ligand, and 0.8 for neutral imidazole. On protonation-deprotonation in the near-neutral pH range, UV/Vis absorption and fluorescence spectral shifts along with isosbestic and pseudo-isoemissive points are observed. This dual-excitation and dual-emission pH indicator emits intense green-yellow fluorescence at lower pH and intense orange fluorescence at higher pH. The influence of ionic strength and buffer concentration on the absorbance and steady-state fluorescence of II has also been investigated. The apparent pK(a) of the near-neutral acid-base equilibrium determined by spectrophotometric and fluorometric titration is nearly independent of the added buffer and salt concentration. In aqueous solution in the absence of buffer and in the pH range 5.20-7.45, dual exponential fluorescence decays are obtained with decay time τ(1)=4.3 ns for the cationic and τ(2)=3.3 ns for the neutral form of II. The excited-state proton exchange of II at near-neutral pH becomes reversible on addition of phosphate (H(2)PO(4)(-)/HPO(4)(2-)) buffer, and a pH-dependent change of the fluorescence decay times is induced. Global compartmental analysis of fluorescence decay traces collected as a function of pH and phosphate buffer concentration was used to recover values of the deactivation rate constants of the excited cationic (k(01)=2.4×10(8) s(-1)) and neutral (k(02)=3.0×10(8) s(-1)) forms of II.
一种可见光谱激发、比率比色、高亮度荧光 pH 指示剂,用于 pH 5-7 范围内的测量,通过乙烯基桥将 BODIPY 荧光团连接到 pH 敏感配体咪唑的 3-位,设计并合成。探针可作为细胞膜通透的甲酯 8-(4-羧甲基苯基)-4,4-二氟-3-[2-(1H-咪唑-4-基)乙烯基]-1,5,7-三甲基-3a,4a-二氮-4-硼-s-茚并[1,2-b]吡咯(I)和相应的水溶性钠盐,8-(4-羧甲基苯基)-4,4-二氟-3-[2-(1H-咪唑-4-基)乙烯基]-1,5,7-三甲基-3a,4a-二氮-4-硼-s-茚并[1,2-b]吡咯(II)。酯 I 的荧光量子产率 Φ(f) 在测试的有机溶剂中非常高(0.8-1.0)。I 在极性/极化率不同的有机溶剂(从环己烷到乙腈)中的荧光寿命(约 4 ns)与溶剂无关,荧光速率常数 k(f) 为 2.4×10(8) s(-1)。探针 I 很容易负载在活细胞的细胞质中,在较长时间内其高荧光强度保持几乎不变。水溶性指示剂 II 在水溶液中表现出两个酸碱平衡,特征是 pK(a) 值为 6.0 和 12.6。II 在水溶液中的 Φ(f) 值较高:阳离子和阴离子形式的咪唑配体为 0.6,中性咪唑为 0.8。在近中性 pH 范围内质子化-去质子化时,观察到 UV/Vis 吸收和荧光光谱的位移以及等色和拟等色点。这种双激发和双发射 pH 指示剂在较低 pH 下发出强烈的绿黄色荧光,在较高 pH 下发出强烈的橙色荧光。还研究了离子强度和缓冲浓度对 II 的吸收和稳态荧光的影响。通过分光光度法和荧光滴定法确定的近中性酸碱平衡的表观 pK(a)值几乎与添加的缓冲液和盐浓度无关。在无缓冲液的水溶液中和 pH 5.20-7.45 范围内,获得具有阳离子形式的衰减时间 τ(1)=4.3 ns 和中性形式的 τ(2)=3.3 ns 的双指数荧光衰减。在加入磷酸盐(H(2)PO(4)(-)/HPO(4)(2-))缓冲液后,II 在近中性 pH 下的激发态质子交换变得可逆,并诱导荧光衰减时间的 pH 依赖性变化。作为 pH 和磷酸盐缓冲液浓度函数收集的荧光衰减轨迹的全局隔室分析用于恢复 II 的激发态阳离子(k(01)=2.4×10(8) s(-1))和中性(k(02)=3.0×10(8) s(-1))形式的失活速率常数的值。
