Endogenous lipase activity in Caco-2 cells

Johannes H. Spalinger , Ernest G. Seidman , Daniel Ménard , Emile Levy
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引用次数: 24

Abstract

Dietary triglycerides, the major precursors of long chain fatty acids (FA), require hydrolysis by pancreatic enzymes prior to their absorption by the small intestine. Although Caco-2 cells are frequently employed for the study of enterocyte lipid metabolism, the presence of an endogenous lipase activity has never been previously reported. The major goal of this investigation was to determine the presence of endogenous Caco-2 cell lipase activity, to examine its capacity to hydrolyze triglycerides, and to define its intracellular location. Caco-2 cells were found to have an endogenous lipase activity, capable of hydrolyzing [1-14C]triolein from the apical cell compartment. A time and concentration dependence of lipase activity was observed, with hydrolysis of triolein into free fatty acids and monoglyceride. The majority of the lipase activity was found in the cytosolic cell fraction and, to a lesser extent, in the apical brush border membrane and other organelles. Protamine sulfate markedly reduced the Caco-2 cell lipase activity, yet it remained relatively insensitive to high concentrations of NaCl, taurocholate, calcium, heparin and chloroquine. The addition of exogenous human gastric lipase to the medium of the apical compartment resulted in a significant increased rate of hydrolysis of triolein, followed by enhanced Caco-2 cell fatty acid uptake and basolateral lipid secretion. The major esterified intracellular lipids were triglycerides and phospholipids. We conclude that Caco-2 cells possess an endogenous lipase capable of hydrolyzing cytosolic triglycerides. Furthermore, activity present on the apical membrane and secreted into the apical medium, though quantitatively less important than the cytosolic lipase, may permit an additional route for energy uptake. The addition of gastric lipase to the Caco-2 cell cultures greatly enhanced FA uptake above that seen with the endogenous lipase alone.

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Caco-2细胞内源性脂肪酶活性
膳食甘油三酯是长链脂肪酸(FA)的主要前体,在被小肠吸收之前需要胰酶水解。尽管Caco-2细胞经常被用于肠细胞脂质代谢的研究,但内源性脂肪酶活性的存在从未被报道过。本研究的主要目的是确定内源性Caco-2细胞脂肪酶活性的存在,检查其水解甘油三酯的能力,并确定其在细胞内的位置。Caco-2细胞具有内源性脂肪酶活性,能够从顶端细胞室中水解[1-14C]三油苷。脂肪酶活性随时间和浓度的变化而变化,三油酸水解为游离脂肪酸和单甘油酯。大多数脂肪酶活性存在于细胞质细胞部分,少量存在于顶端刷状边缘膜和其他细胞器中。硫酸鱼精蛋白显著降低Caco-2细胞脂肪酶活性,但对高浓度NaCl、牛磺胆酸盐、钙、肝素和氯喹相对不敏感。在根尖室培养基中添加外源性人胃脂肪酶,可显著提高三油酸水解率,并增强Caco-2细胞脂肪酸摄取和基底外侧脂质分泌。主要的酯化细胞内脂质是甘油三酯和磷脂。我们得出结论,Caco-2细胞具有内源性脂肪酶,能够水解胞质甘油三酯。此外,存在于根尖膜上并分泌到根尖培养基中的活性,虽然在数量上不如胞质脂肪酶重要,但可能允许额外的能量摄取途径。在Caco-2细胞培养物中添加胃脂肪酶大大提高了FA的吸收,高于单独使用内源性脂肪酶。
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