一种抗癌化合物(BI - 94)与血浆蛋白的不可逆结合。
Irreversible binding of an anticancer compound (BI-94) to plasma proteins.
作者信息
Gautam Nagsen, Thakare Rhishikesh, Rana Sandeep, Natarajan Amarnath, Alnouti Yazen
机构信息
a Department of Pharmaceutical Sciences , ollege of Pharmacy, University of Nebraska Medical Center , Omaha , NE , USA and.
出版信息
Xenobiotica. 2015;45(10):858-73. doi: 10.3109/00498254.2015.1025250. Epub 2015 Apr 14.
Abstract
- We investigated the mechanisms responsible for the in vivo instability of a benzofurazan compound BI-94 (NSC228148) with potent anti-cancer activity. 2. BI-94 was stable in MeOH, water, and in various buffers at pHs 2.5-5, regardless of the buffer composition. In contrast, BI-94 was unstable in NaOH and at pHs 7-9, regardless of the buffer composition. BI-94 disappeared immediately after spiking into mice, rat, monkey, and human plasma. BI-94 stability in plasma can be only partially restored by acidifying it, which indicated other mechanisms in addition to pH for BI-94 instability in plasma. 3. BI-94 formed adducts with the trapping agents, glutathione (GSH) and N-acetylcysteine (NAC), in vivo and in vitro via nucleophilic aromatic substitution reaction. The kinetics of adduct formation showed that neutral or physiological pHs enhanced and accelerated GSH and NAC adduct formation with BI-94, whereas acidic pHs prevented it. Therefore, physiological pHs not only altered BI-94 chemical stability but also enhanced adduct formation with endogenous nucleophiles. In addition, adduct formation with human serum albumin-peptide 3 (HSA-T3) at the Cys34 position was demonstrated. 4. In conclusion, BI-94 was unstable at physiological conditions due to chemical instability and irreversible binding to plasma proteins.
摘要
- 我们研究了具有强效抗癌活性的苯并呋咱化合物BI-94(NSC228148)在体内不稳定的机制。2. BI-94在甲醇、水以及pH值为2.5至5的各种缓冲液中均稳定,与缓冲液成分无关。相比之下,BI-94在氢氧化钠溶液以及pH值为7至9的环境中不稳定,与缓冲液成分无关。将BI-94加入小鼠、大鼠、猴子和人类血浆后会立即消失。通过酸化血浆只能部分恢复BI-94在血浆中的稳定性,这表明除了pH值外,还有其他机制导致BI-94在血浆中不稳定。3. BI-94在体内和体外通过亲核芳香取代反应与捕获剂谷胱甘肽(GSH)和N-乙酰半胱氨酸(NAC)形成加合物。加合物形成的动力学表明,中性或生理pH值会增强并加速GSH和NAC与BI-94形成加合物,而酸性pH值则会抑制这种反应。因此,生理pH值不仅改变了BI-94的化学稳定性,还增强了其与内源性亲核试剂的加合物形成。此外,还证明了BI-94与位于半胱氨酸34位置的人血清白蛋白-肽3(HSA-T3)形成加合物。4. 总之,由于化学不稳定性以及与血浆蛋白的不可逆结合,BI-94在生理条件下不稳定。
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