Prat F, Sibille A, Luccioni C, Pansu D, Chapelon J Y, Beaumatin J, Ponchon T, Cathignol D
INSERM U 281, Lyon, France.
Gastroenterology. 1994 Apr;106(4):937-44. doi: 10.1016/0016-5085(94)90752-8.
BACKGROUND/AIMS: Cavitation has been shown to hinder colon cancer cell proliferation in vitro. This study aimed at investigating the interest of combining cavitation and cytotoxic drugs in vitro.
HT-29 cells were exposed in suspension to cavitation (shock waves plus bubbles) before 5-fluorouracil (FUra) administration. Cytotoxicity was studied by means of clonogenic survival, cell proliferation by [3H]deoxyuridine ([3H]dUdR) incorporation, and influence of the treatments on the cell cycle by cytofluorimetry; the effects of cavitation on RNA incorporation of FUra, cell permeability, and activity of thymidilate synthetase (TS) were also studied.
A preliminary exposure to cavitation (as compared with FUra alone) induced decreased colony formation (by up to 2 log in certain conditions) and colony size. Cavitation alone induced increased incorporation of [3H]dUdR during 48 hours and stimulated TS activity, but in the presence of FUra, the concentration of the drug that causes 50% inhibition of control cell growth for [3H]dUdR incorporation was reduced by up to 1 log, and TS inhibition was increased after cavitation as compared with FUra alone. RNA incorporation of [14C]FUra was increased by cavitation, as a consequence of altered cell permeability rather than a direct RNA effect. Seventy-two hours after treatment, cavitation plus FUra decreased by more than 50% the S-phase fraction and also inhibited mitosis.
Submitting HT-29 cells to cavitation before treatment by FUra significantly increases the effects of the drug. The action of both agents appears to be partially synergistic with a cycle specificity.
背景/目的:已证实在体外空化作用可抑制结肠癌细胞增殖。本研究旨在探讨体外联合空化作用与细胞毒性药物的益处。
在给予5-氟尿嘧啶(FUra)之前,将HT-29细胞悬浮暴露于空化作用(冲击波加气泡)。通过克隆形成存活率研究细胞毒性,通过[3H]脱氧尿苷([3H]dUdR)掺入研究细胞增殖,并通过细胞荧光测定法研究处理对细胞周期的影响;还研究了空化作用对FUra的RNA掺入、细胞通透性和胸苷酸合成酶(TS)活性的影响。
与单独使用FUra相比,预先暴露于空化作用会导致集落形成减少(在某些条件下减少多达2个对数)和集落大小减小。单独的空化作用在48小时内诱导[3H]dUdR掺入增加并刺激TS活性,但在存在FUra的情况下,与[3H]dUdR掺入相比,导致对照细胞生长50%抑制的药物浓度降低多达1个对数,并且与单独使用FUra相比,空化作用后TS抑制作用增强。空化作用增加了[14C]FUra的RNA掺入,这是细胞通透性改变的结果,而非直接的RNA效应。处理72小时后,空化作用加FUra使S期分数降低超过50%,并抑制有丝分裂。
在使用FUra处理之前,使HT-29细胞经受空化作用可显著增强药物的效果。两种药物的作用似乎具有部分协同性且具有周期特异性。
