DNA cross-linking following exposure to cis-platinum in primary and serially passaged cultured cells derived from two murine fibrosarcomas

Contribution of organic cation transporter 3 to cisplatin cytotoxicity in human cervical cancer cells

This study was conducted to investigate whether drug transporters play a role in determination of cisplatin resistance in cervical cancer cells. The transcript levels of the transporter genes previously associated with cisplatin transport and/or resistance were compared between the cisplatin-sensitive cervical adenocarcinoma KB-3-1 and its derivative cisplatin-resistant KB-CP20 cells. The expression of the efflux transporter gene multidrug resistance-associated protein 2 (MRP2) was significantly reduced in KB-CP20 cells, in support of previous studies indicating that MRP2 is unlikely responsible for cisplatin resistance in these cells. We observed that the expression of the uptake transporter organic cation transporter 3 (OCT3) was extremely downregulated in KB-CP20 compared with KB-3-1 cells. Consistently, the transport function for organic cations in the former was considerably low. OCT3 overexpression significantly increased cisplatin cellular accumulation and cytotoxicity in KB-3-1 cells, while its downregulation by short hairpin RNA or chemical inhibition increased the resistance. Interestingly, there was no effect of OCT3 overexpression on cisplatin accumulation and cytotoxicity in human embryonic kidney 293 cells. The present study indicates that OCT3 partially contributes to the sensitivity of cervical adenocarcinoma cells to cisplatin cytotoxicity. Further studies are required to determine OCT3 activity in cervical cancer tissues of different cisplatin chemoresponses and to elucidate the underlying mechanisms of different OCT3 function in different cell types.

Mutual Education Between Hematopoietic Cells and Bone Marrow Stromal Cells Through Direct Cell-to-Cell Contact: Factors That Determine the Growth of Bone Marrow Stroma-Dependent Leukemic (HB-1) Cells

A stroma-dependent cell line (HB-1) was established from myelogenous leukemic cells of CBA/N mouse. Characterization of the cells showed that HB-1 proliferated on hematopoietic supportive stromal cells (MS-10), but did not survive or proliferate on hematopoietic nonsupportive cells (MS-K). Direct contact between HB-1 and MS-10 appears to be necessary for HB-1 to proliferate on MS-10. We found that interleukin-1α (IL-1α) produced by MS-10 plays a major role in the survival and proliferation of HB-1. IL-11 did not support the proliferation of HB-1 cells by itself, but enhanced the proliferation of HB-1 cells in the presence of IL-1α. The expression of IL-1α and IL-11 was induced in MS-10 by the direct contact with HB-1 cells, and the expression of IL-1 receptor type I (IL-1RI) and interleukin-11 receptor (IL-11R) was induced in HB-1 cells by the attachment of the cells to MS-10. These findings show the existence of two-way interactions between HB-1 and MS-10.

© 1998 by The American Society of Hematology.

Mutual Education Between Hematopoietic Cells and Bone Marrow Stromal Cells Through Direct Cell-to-Cell Contact: Factors That Determine the Growth of Bone Marrow Stroma-Dependent Leukemic (HB-1) Cells

A stroma-dependent cell line (HB-1) was established from myelogenous leukemic cells of CBA/N mouse. Characterization of the cells showed that HB-1 proliferated on hematopoietic supportive stromal cells (MS-10), but did not survive or proliferate on hematopoietic nonsupportive cells (MS-K). Direct contact between HB-1 and MS-10 appears to be necessary for HB-1 to proliferate on MS-10. We found that interleukin-1α (IL-1α) produced by MS-10 plays a major role in the survival and proliferation of HB-1. IL-11 did not support the proliferation of HB-1 cells by itself, but enhanced the proliferation of HB-1 cells in the presence of IL-1α. The expression of IL-1α and IL-11 was induced in MS-10 by the direct contact with HB-1 cells, and the expression of IL-1 receptor type I (IL-1RI) and interleukin-11 receptor (IL-11R) was induced in HB-1 cells by the attachment of the cells to MS-10. These findings show the existence of two-way interactions between HB-1 and MS-10.

© 1998 by The American Society of Hematology.