Kim Nam Ah, Lim Dae Gon, Lim Jun Yeul, Kim Ki Hyun, Jeong Seong Hoon
College of Pharmacy, Dongguk University-Seoul , Gyeonggi , Korea.
Drug Dev Ind Pharm. 2015 Feb;41(2):300-6. doi: 10.3109/03639045.2013.859152. Epub 2014 Feb 7.
Correlation of thermodynamic and secondary structural stability of proteins at various buffer pHs was investigated using differential scanning calorimetry (DSC), dynamic light scattering (DLS) and attenuated total reflection Fourier-transform infrared spectroscopy (ATR FT-IR). Recombinant human epithelial growth factor (rhEGF) was selected as a model protein at various pHs and in different buffers, including phosphate, histidine, citrate, HEPES and Tris. Particle size and zeta potential of rhEGF at each selected pH of buffer were observed by DLS. Four factors were used to characterize the biophysical stability of rhEGF in solution: temperature at maximum heat flux (Tm), intermolecular β-sheet contents, zeta size and zeta potential. It was possible to predict the apparent isoelectric point (pI) of rhEGF as 4.43 by plotting pH against zeta potential. When the pH of the rhEGF solution increased or decreased from pI, the absolute zeta potential increased indicating a reduced possibility of protein aggregation, since Tm increased and β-sheet contents decreased. The contents of induced intermolecular β-sheet in Tris and HEPES buffers were the lowest. Thermodynamic stability of rhEGF markedly increased when pH is higher than 6.2 in histidine buffer where Tm of first transition was all above 70 °C. Moreover, rhEGF in Tris buffer was more thermodynamically stable than in HEPES with higher zeta potential. Tris buffer at pH 7.2 was concluded to be the most favorable.
利用差示扫描量热法(DSC)、动态光散射法(DLS)和衰减全反射傅里叶变换红外光谱法(ATR FT-IR)研究了不同缓冲液pH值下蛋白质的热力学稳定性与二级结构稳定性之间的相关性。选择重组人表皮生长因子(rhEGF)作为模型蛋白,在不同pH值和不同缓冲液中进行研究,这些缓冲液包括磷酸盐、组氨酸、柠檬酸盐、HEPES和Tris。通过DLS观察rhEGF在每种选定缓冲液pH值下的粒径和zeta电位。使用四个因素来表征rhEGF在溶液中的生物物理稳定性:最大热流温度(Tm)、分子间β-折叠含量、zeta粒径和zeta电位。通过绘制pH值与zeta电位的关系图,可以预测rhEGF的表观等电点(pI)为4.43。当rhEGF溶液的pH值从pI升高或降低时,绝对zeta电位增加,表明蛋白质聚集的可能性降低,因为Tm增加且β-折叠含量降低。Tris和HEPES缓冲液中诱导的分子间β-折叠含量最低。在组氨酸缓冲液中,当pH值高于6.2时,rhEGF的热力学稳定性显著增加,其中第一次转变的Tm均高于70°C。此外,Tris缓冲液中的rhEGF比具有更高zeta电位的HEPES缓冲液中的rhEGF在热力学上更稳定。得出pH 7.2的Tris缓冲液是最有利的结论。
