Optical Spectroscopy & Diagnostic Lab, Laser Bio-Medical Applications & Instrumentation Division, Raja Ramanna Center for Advanced Technology, Indore, M.P. 452013, India.
Optical Spectroscopy & Diagnostic Lab, Laser Bio-Medical Applications & Instrumentation Division, Raja Ramanna Center for Advanced Technology, Indore, M.P. 452013, India.
Spectrochim Acta A Mol Biomol Spectrosc. 2017 Feb 15;173:132-138. doi: 10.1016/j.saa.2016.09.001. Epub 2016 Sep 3.
We report the use of interface selective Second Harmonic generation technique to investigate the transport of the LDS cation across POPG liposomes in the pH range of 4.0 to 8.0 in the presence and absence of two amphiphilic drugs, Curcumin and Chlorin-p (Cp). Our results show that bilayer permeability of liposomes is significantly affected by the presence of the drugs and pH of the medium as evidenced by significant changes in the transport kinetics of the LDS. Studies carried out in the pH range 4.0-8.0 show that while Cp significantly enhanced the transport of LDS at pH4.0, the transport of the cation was seen to increase with increasing pH, with maximum effect at pH7.4 for Curcumin. The pH dependent bilayer localization of both the drugs was investigated by conducting steady state FRET studies using DPH labeled lipids as donors. The FRET results and the relative population of the various ionic/nonionic species of the drugs at different pH suggest that distance dependent interaction between the various ionic species of the drugs and polar head groups of the lipid is responsible for the observed pH dependence enhancement of the drug induced membrane permeability. Another interesting observation was that the stability of Curcumin in presence of POPG liposomes was observed to degrade significantly near physiological pH (7.4 and 8.0). Although this degradation did not affect the liposome integrity, interestingly this was observed to enhance the transport of the LDS cation across the bilayer. That the degradation products of Curcumin are equally effective as the drug itself in enhancing the membrane permeability lends additional support to the current opinion that the bioactive degradation products of the drug may have a significant contribution to its observed pharmacological effects.
我们报告了使用界面选择性二次谐波产生技术来研究 LDS 阳离子在 pH 值为 4.0 到 8.0 的范围内穿过 POPG 脂质体的运输情况,同时存在和不存在两种两亲药物,姜黄素和 Chlorin-p(Cp)。我们的结果表明,脂质体的双层通透性受到药物和介质 pH 值的显著影响,这可以从 LDS 运输动力学的显著变化中得到证明。在 pH 值 4.0-8.0 范围内进行的研究表明,虽然 Cp 在 pH4.0 时显著增强了 LDS 的运输,但随着 pH 值的增加,阳离子的运输也随之增加,在 pH7.4 时对 Curcumin 的效果最大。通过使用 DPH 标记的脂质作为供体进行稳态 FRET 研究,研究了两种药物在不同 pH 值下的双层定位。FRET 结果和药物在不同 pH 值下各种离子/非离子物种的相对分布表明,药物的各种离子物种与脂质的极性头基团之间的距离依赖相互作用是导致观察到的 pH 值依赖性增强药物诱导的膜通透性的原因。另一个有趣的观察结果是,Curcumin 在存在 POPG 脂质体时的稳定性在接近生理 pH 值(7.4 和 8.0)时被观察到显著降解。虽然这种降解不会影响脂质体的完整性,但有趣的是,它被观察到增强了 LDS 阳离子穿过双层的运输。Curcumin 的降解产物与药物本身一样有效地增强膜通透性,这为当前的观点提供了额外的支持,即药物的生物活性降解产物可能对其观察到的药理作用有重要贡献。
