Meterissian S, Steele G D, Thomas P
Department of Surgery, New England Deaconess Hospital, Harvard Medical School, Boston, MA 02115.
Clin Exp Metastasis. 1993 Mar;11(2):175-82. doi: 10.1007/BF00114975.
The liver is the most common site of hematogenous metastases from colorectal carcinoma. Kupffer cells (KC), which line the hepatic sinusoids, may form the first line of defense against circulating tumor cells. The purpose of this study was to determine the effect of hepatic metastases and intra-abdominal tumor growth on KC binding of human colorectal carcinoma (HCRC) cells. MIP-101, a poorly metastatic cell line, and CX-1, a highly metastatic cell line, were injected intrasplenically into nude mice and KC were isolated by collagenase perfusion at varying intervals after injection. Conditioned media were collected from MIP-101, CCL 188 and CX-1 to determine their in vitro effect on KC function. KC from MIP-101 injected mice (14% liver metastases, 100% splenic tumors) bound a significantly greater number of MIP-101 and clone A cells than CX-1 cells in vitro. KC isolated from mice 5 weeks after CX-1 injection (100% liver metastases) also showed increased binding of MIP-101 and clone A cells compared to CX-1 cells. Similar results were obtained when tumor cell binding to normal human liver KC was compared to binding to KC from human livers from patients with hepatic metastasis from colorectal cancer. In contrast KC obtained from mice 3 weeks after CX-1 injection (44% liver metastases) showed significantly decreased binding of MIP-101 and clone A cells. The conditioned medium from CX-1 cells significantly decreased the in vitro binding of both MIP-101 and CX-1 by KC. These results indicate that the ability of KC to bind HCRC cells (which precedes phagocytosis and tumor cell killing) is a dynamic function and affected by concomitant tumor growth. HCRC cells may alter KC function via the production of specific tumor-derived soluble factors. In order to devise new and more effective therapeutic options in the treatment of liver metastases the nature of this tumor cell-KC interaction must be better understood.
肝脏是结直肠癌血行转移最常见的部位。肝血窦内衬的库普弗细胞(KC)可能构成抵御循环肿瘤细胞的第一道防线。本研究的目的是确定肝转移和腹腔内肿瘤生长对KC与人结直肠癌(HCRC)细胞结合的影响。将低转移细胞系MIP - 101和高转移细胞系CX - 1经脾内注射到裸鼠体内,并在注射后不同时间间隔通过胶原酶灌注分离KC。收集MIP - 101、CCL 188和CX - 1的条件培养基,以确定它们对KC功能的体外影响。在体外,来自注射MIP - 101的小鼠(14%肝转移,100%脾肿瘤)的KC与MIP - 101和克隆A细胞结合的数量明显多于CX - 1细胞。在注射CX - 1后5周从小鼠分离的KC(100%肝转移)与CX - 1细胞相比,也显示出与MIP - 101和克隆A细胞结合增加。当将肿瘤细胞与正常人肝KC的结合与结直肠癌肝转移患者肝脏KC的结合进行比较时,也获得了类似结果。相比之下,在注射CX - 1后3周从小鼠获得的KC(44%肝转移)显示出与MIP - 101和克隆A细胞的结合显著减少。CX - 1细胞的条件培养基显著降低了KC对MIP - 101和CX - 1的体外结合。这些结果表明,KC结合HCRC细胞的能力(在吞噬作用和肿瘤细胞杀伤之前)是一种动态功能,并受伴随肿瘤生长的影响。HCRC细胞可能通过产生特定的肿瘤衍生可溶性因子来改变KC功能。为了设计出治疗肝转移的新的、更有效的治疗方案,必须更好地了解这种肿瘤细胞 - KC相互作用的性质。
