Record Michel, Amara Sawsan, Subra Caroline, Jiang Guowei, Prestwich Glenn D, Ferrato Francine, Carrière Frédéric
Cancer Research Center of Toulouse, Université Toulouse 3, France.
Biochim Biophys Acta. 2011 Jul-Aug;1811(7-8):419-30. doi: 10.1016/j.bbalip.2011.04.008. Epub 2011 Apr 30.
The interfacial physical properties of bis(monoacylglycero)phosphate (BMP) and its derivatives with three oleoyl chains (hemi-BDP) and four oleoyl chains (bis(diacylglycero)phosphate, BDP) were investigated using Langmuir monomolecular films. The mean molecular area of BMP at the collapse surface pressure (45mN m(-1)) was similar to those measured with other phospholipids bearing two acyl chains (66 and 59.6Å(2) molecule(-1) at pH 5.5 and 8.0, respectively). In Hemi-BDP and BDP, the mean molecular area increased by 26 and 35Å(2) molecule(-1) per additional acyl chain at pH 5.5 and 8.0, respectively. When BMP was added to a phospholipid mixture mimicking late endosome membrane composition at pH 8.0, the mean phospholipid molecular area increased by 7% regardless of the surface pressure. In contrast, the variation in molecular area was surface pressure-dependent at pH 5.5, a pH value close to that of intra-endosomal content. BMP and hemi-BDP, but not BDP, were hydrolyzed by pancreatic lipase-related protein 2 (PLRP2), which exhibits phospholipase A(1) activity. At pH 5.5, the maximum activities of PLRP2 on BMP were recorded at high surface pressures (25-35mN/m). At pH 8.0, the PLRP2 activity vs. surface pressure showed a bell-shaped curve with maximum activities at 15mN/m for both BMP and hemi-BDP. This is a new activity for this enzyme which could degrade cellular BMP since both human PLRP2 (HPLRP2) and BMP were localized in human monocytic THP-1 cells. This is the first report on the cellular localization of HPLRP2 in human monocytes.
使用朗缪尔单分子膜研究了双(单酰甘油)磷酸酯(BMP)及其具有三条油酰链的衍生物(半BDP)和四条油酰链的衍生物(双(二酰甘油)磷酸酯,BDP)的界面物理性质。BMP在崩塌表面压力(45 mN m⁻¹)下的平均分子面积与其他带有两条酰基链的磷脂所测得的相似(在pH 5.5和8.0时分别为66和59.6 Ų 分子⁻¹)。在半BDP和BDP中,在pH 5.5和8.0时,每增加一条酰基链,平均分子面积分别增加26和35 Ų 分子⁻¹。当在pH 8.0时将BMP添加到模拟晚期内体膜组成的磷脂混合物中时,无论表面压力如何,平均磷脂分子面积增加7%。相比之下,在pH 5.5(接近内体内容物的pH值)时,分子面积的变化取决于表面压力。BMP和半BDP,但不是BDP,被具有磷脂酶A₁活性的胰腺脂肪酶相关蛋白2(PLRP2)水解。在pH 5.5时,PLRP2对BMP的最大活性在高表面压力(25 - 35 mN/m)下记录。在pH 8.0时,PLRP2活性与表面压力呈钟形曲线,BMP和半BDP在15 mN/m时活性最大。这是该酶的一种新活性,因为人PLRP2(HPLRP2)和BMP都定位于人单核细胞THP - 1细胞中,所以它可以降解细胞内的BMP。这是关于HPLRP2在人单核细胞中的细胞定位的首次报道。
