亲水性可共轭二氢卟吩和细菌叶绿素的高产合成方法。
High-yielding syntheses of hydrophilic conjugatable chlorins and bacteriochlorins.
作者信息
McCarthy Jason R, Bhaumik Jayeeta, Merbouh Nabyl, Weissleder Ralph
机构信息
Center for Molecular Imaging Research, Harvard Medical School and Massachusetts General Hospital, 149 13th St., Rm 5406, Charlestown, MA 02129, USA.
出版信息
Org Biomol Chem. 2009 Sep 7;7(17):3430-6. doi: 10.1039/b908713c. Epub 2009 Jul 2.
Abstract
Next-generation photodynamic therapy agents based upon the conjugation of multiple photosensitizers to a targeting backbone will allow for more efficacious light-based therapies. To this end, we have developed glucose-modified chlorins and bacteriochlorins featuring a reactive carboxylic acid linker for conjugation to targeting moieties. The photosensitizers were synthesized in relatively high yields from meso-tetra(p-aminophenyl)porphyrin, and resulted in neutral, hydrophilic chromophores with superb absorption profiles in the far-red and near-infrared portions of the electromagnetic spectrum. In addition, conjugation of these photosensitizers to a model nanoscaffold (crosslinked dextran-coated nanoparticles) demonstrated that the inclusion of hydrophilic sugar moieties increased the number of dyes that can be loaded while maintaining suspension stability. The described compounds are expected to be particularly useful in the synthesis of a number of targeted nanotherapeutic systems.
摘要
基于将多种光敏剂与靶向主链结合的下一代光动力治疗剂将使基于光的治疗更加有效。为此,我们开发了葡萄糖修饰的二氢卟吩和细菌叶绿素,其具有用于与靶向部分结合的反应性羧酸连接基。这些光敏剂从中四(对氨基苯基)卟啉以相对较高的产率合成,并产生了在电磁光谱的远红和近红外部分具有出色吸收谱的中性亲水性发色团。此外,将这些光敏剂与模型纳米支架(交联葡聚糖包被的纳米颗粒)结合表明,亲水性糖部分的加入增加了可负载的染料数量,同时保持了悬浮稳定性。预期所描述的化合物在许多靶向纳米治疗系统的合成中特别有用。
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