Paola Franco

Hematoporphyrin derivative photoradiation therapy in murine solid tumors.

The cytocidal activity of light-activated hematoporphyrin derivative (Hpd) in experimental and human tumors is under investigation in many laboratories. This activity is based upon preferential incorporation of Hpd in malignant tissues and its photosensibilization by red light. Treatment of mice bearing MS-2 fibrosarcoma and B16 melanoma, a metastastic tumor, with Hpd and laser light, externally or delivered through a quartz fiber optic imbedded directly into the tumor, significantly prolonged the median survival time. This therapy was compared with surgical excision of primary tumors, and preliminary results on metastatic neoplasm suggest that the photoradiation therapy is more effective than surgery.

Inhibition of cellular DNA synthesis and lack of antileukemic activity by non-photoactivated hematoporphyrin derivative.

It has been reported that cytocidal activity of light-activated hematoporphyrin (HPD) within the cells might be exploited in the therapy of experimental and human cancer. As part of a project from this laboratory aimed to study some major biologic features of HPD, it was found that [3H]thymidine incorporation in tumor cells was highly inhibited as a consequence of HPD treatment. HPD-mediated inhibition, obtained by a treatment either in vitro or in vivo, was long lasting and independent of light activation. Cellular DNA synthesis was inhibited by non toxic doses of HPD which were not influential either cell viability or cell oncogenicity. In preliminary studies, HPD-treated cells accumulated in the G1 phase of the cell cycle as detected by cytofluorometric analysis. This finding is in keeping with a likely inhibition exerted in late G, or at the beginning of the S phase of cell the cycle and might exclude a direct damage of the DNA synthetic machinery. Definitive loss of cell viability and cellular DNA inhibition was obtained immediately after the exposure of HPD-treated cells to He-Ne laser light. HPD-mediated cell lysis was dose dependent and in the order of magnitude of cytocidal doses in different cell systems. HPD antileukemic activity or HPD interactions with chemotherapeutic drugs was ruled out in L1210 leukemic mice.

Regulation of human peripheral blood lymphocytes IL-10 BY SMS 201-995

The somatostatin analog SMS 201-995 inhibits human peripheral blood lymphocytes (PBL) proliferation and here we demonstrate that it induces a significant increase in T cells IL-10 release as is evidenced in double fluorescence experiments. Seizing IL-10 by monoclonal antibody, SMS does not affect lymphocyte proliferation, suggesting that this cytokine is involved in the antiproliferative effect of these analog. We previously demonstrated that SMS inhibits T cells acting on the CD28 rather than the CD3-mediated signal in exactly the same way as does IL-10. Thus SMS inhibits human PBL activation by inducing IL-10 release and the consequent inhibition of the CD28 co-stimulatory pathway providing new perspectives on developing immunosuppressive strategies.

In vitro hematoporphyrin (HPD) inhibitory effects on some immunological assays

Hematoporphyrin derivative (Hpd) is a fluorescent dye that is preferentially incorporated by tissues with a high mitotic index, such as tumor cells and blast cells. A cytotoxic effect is produced following light activation. Previous studies have shown a long lasting reversible inhibition of DNA synthesis in Hpd-treated cells that failed to stimulate allogeneic lymphocytes in either primary or in secondary MLR. In this study we report Hpd inhibitory effects on some immunological assays in vitro. Treatment with Hpd of cytotoxic effector cells resulted in inhibition of their lytic activity likely dependent on the loss of binding to target cells. In the same way Hpd treatment inactivated the lytic activity of NK cells. In contrast Hpd-treatment of target cells did not modify the above immunological reactions. Moreover Con A agglutinability, antibody dependent capping as well as E-rosettes were inhibited following an Hpd treatment of relevant cells. Since normal susceptibility to humoral and cell mediated lysis was exhibited by Hpd-treated cells it is unlikely that cell surface molecules were damaged. An inhibitory effect exerted by an Hpd treatment on cell surface movements might explain these findings.

Macrophage antitumor activity induced by the antigenic lymphoma L5178Y/DTIC subline

Murine leukemic cells, after in vivo treatment with antineoplastic drugs, have been shown to express new antigenic specificities that were not detectable on parental cells and that were heritable after the withdrawal of drug treatment. A study was conducted of macrophage antitumor activity triggered by LY/DTIC cells, a subline of LY murine lymphoma, antigenically altered by the drug DTIC. In vitro non-specific inhibition of tumor cell growth was exhibited by spleen and peritoneal macrophages from mice previously challenged with viable LY/DTIC. Peritoneal macrophages from LY/DTIC immune animals showed moderate, although significant lytic activity against unrelated tumor target cells. Supernatants from mixed lymphocyte-tumor cell cultures, in which LY/DTIC immune lymphocytes and LY/DTIC tumor cells had been cultured, rendered normal macrophages non-specifically growth inhibitory for tumor cells.

DOWN REGULATION OF QA GENE EXPRESSION ON DRUG-MODIFIED TUMOR CELLS

Background Mouse leukemia, L1210, strongly enhances its immunogenicity following in vivo treatment with 5-(3-3′-dimethyl-1-triazeno) imidazole-4-carboxamide (DTIC). Previous experiments have shown that transformed cells elicit a cell-mediated response accountable for rejection and resistance to a subsequent injection of parental tumor into a syngeneic host. L1210 expresses classical H-2 class I molecules, and since it has been shown that DTIC treatment does not modify the expression of these molecules, this is a suitable model to study nonclassical class I antigens, such as Qa2 glycoproteins, and their potential role in tumoregenicity. Methods Cloned cells from L1210 were treated with DTIC and then H-2D, and Qa antigen expression was studied on four clones, before and after xenogenization with DTIC. Results and conclusions a strong decrease of Qa2 molecule expression was demonstrated by radioimmunoassay and immunofluorescent staining and was confirmed by FACS and 2D-gel analysis. The presence or the absence of Qa antigens on tumor cells could thus be involved in tolerance or rejection of tumor cells in syngeneic animals.

Induction of new antigenic properties on DTIC-treated L1210 clones.

In vivo treatment of mouse leukemia L1210 with DTIC can induce new antigens on tumor cells that are not detectable on parental cells and that are transmissible as a genetic character. Moreover, L1210/DTIC is rejected by syngeneic hosts. The aim of this study was to investigate whether DTIC selects pre-existing immunogenic clones rather than inducing ex novo new antigenic determinants and to verify the number of induced antigens. L1210 leukemia was cloned in vitro and 4 clones were treated in vivo with DTIC. All the treated clones displayed antigenic properties since they were rejected by syngeneic hosts. Cytotoxic T lymphocytes (CTL) activated against one DTIC clone could recognize and lyse the relevant target. One of these DTIC-modified clones (L4/DTIC) was recloned and the subclones were tested in vivo and in vitro. Two out of six subclones were rejected by syngeneic hosts. CTL specific against these two clones were able to recognize and lyse all the other clones to different degrees. The degree of suscptibility to lysis did not correlate with the capability to evoke an immune response in vivo. Based on these findings we conclude that DTIC does not select pre-existing clones but modifies the tumor cells antigenically, and that the antigenicity induced by DTIC in a cloned tumor line is due to the presence of common antigens shared to different degrees with treated cells.

Adoptive immunity in mice challenged with L1210/DTIC clones

SummaryNew antigenic specificities, not detectable on parental cells, have been induced by many investigators in mouse lymphomas by treatment with the antitumor agent 5(3,3-dimethyl-1-triazeno)imidazole-4-carboxamide (DTIC). The antigens are transmissible, after withdrawal of the drug treatment, as an inheritable character. The mechanism of induction, the molecular nature, and the number of the new antigenic specificities have not been completely elucidated. Four clones from murine leukemia L1210 isolated and expanded in vitro were treated in vivo with DTIC and the new sublines were studied in detail. The four drug-treated sublines studied exhibited strong immunogenicity since they were rejected by syngeneic animals. Immunosuppressed animals challenged with 107 A/DTIC or P/DTIC cells were reciprocally protected by the adoptive transfer of spleen cells from donors that had rejected a lethal challenge of A/DTIC or P/DTIC clones. In a similar fashion, the adoptive transfer of spleen cells obtained from animals that had rejected the Q/DTIC or the R/DTIC clones protected immunosuppressed mice challenged with Q/DTIC or R/DTIC cells. No antitumor activity was observed in cross-protective schedules other than those indicated. It was been concluded that (a) the L1210 leukemia line does not have antigenic cells, (b) four DTIC-treated clone sublines were rejected by compatible hosts, and (c) two mutually exclusive sets of antigens were expressed in four antigenic clone sublines.

Hematoporphyrin Derivative Phototherapy in Experimental Oncology

Photoradiation therapy is currently under investigation as a new form of treatment for solid malignant tumors in human. The method involves photosensitization of drugs and fluorescent dyes, such as Hematoporphyrin1. This dye has been shown to accumulate with a certain degree of specificity in tissues with a high mitotic index2. Moreover, neoplastic tissue might be identified by the fluorescence emitted from cancerous lesions that have incorporated the dye in larger amounts than normal tissues3. The photodynamic action has implicated singlet oxygen Ca short-lived excited molecular state of ground-state triplet oxygen) as the effective cytotoxic agent4.

Toxicity of fenclor 42 in mice: Effects on immunocompetent cells

The aim of this study is to evaluate the effects of Fenclor 42 (a mixture of trichlorobiphenyls) on the immune system. A prolonged administration of this compound to CD2F1 mice resulted in a reduction of relative spleen and thymus weight according to the dose. Furthermore, spleen weights, total number of splenocytes and relative spleen weights decreased significantly also following a single treatment with 0.5 g/kg or 1 g/kg of Fenclor 42. An analysis of the functional activity of splenocytes pointed out that proliferative response to mitogens was also inhibited. Splenic parameters returned to normal values within 5 days after a single treatment and between 8 and 15 days after a subchronic administration. The functional activity of splenocytes was restored between day +5 and day +8 according to the different schedules of treatment. On the contrary, natural killer cell (NK) activity was never affected by Fenclor 42. Studies are in progress to elucidate the intimate mechanism of the toxicity of Fenclor 42 on immunocompetent cells.