Kazuyoshi Tamura

An adoptive immunotherapy of patients with medulloblastoma by lymphokine-activated killer cells (LAK)

SummaryAn adoptive immunotherapy of 6 patients with medulloblastoma by lymphokine-activated killer (LAK) cells is described. They were from 2 to 9 years in age and had cerebrospinal fluid (CSF) dissemination of the tumours. All patients underwent the whole-neuraxis irradiation and chemotherapy. After the usual treatments, they were submitted to an adoptive transfer of one-haplotype identical LAK cells. The LAK cells were induced from peripheral blood lymphocytes (PBL) of their relatives with human recombinant interleukin-2 (rIL-2). 3–15×109 LAK cells were transferred intrathecally in 2–3 months. In 3 of 6 patients, neurological signs were improved and malignant cells had never been detected on CSF cytology after the adoptive immunotherapy. One among these 3 patients showed complete response in 20 months. Thus, this is an attractive approach for the treatment of medulloblastoma with CSF dissemination of the tumour which current therapeutic intervention can not cure.

Monoclonal antibody ONS-M21 recognizes integrin α3 in gliomas and medulloblastomas

SummaryThe monoclonal antibody ONS-M21 recognizes an antigen found on the surface of glioma and medulloblastoma cells but does not react with the antigens of normal brain tissue. We purified and identified the 140-kDa protein by means of an antibody-binding affinity column. This 140-kDa antigen has sequences homologous to the amino-terminal region and five parts of the internal domain of integrin α3. When the integrin α3-related sequences was amplified and used to analyse the mRNA of glioma and medulloblastoma surgical specimens, the transcription level of integrin α3 mRNA appeared to be quantitatively correlated with the grade of malignancy. These findings suggest that the ONS-M21 antibody, which reacts with integrin α3, might be useful in the diagnosis of gliomas and medulloblastomas.

Eradication of murine brain tumors by direct inoculation of concentrated high titer-recombinant retrovirus harboring the herpes simplex virus thymidine kinase gene

Implantation of retrovirus-producing cells within a tumor has been demonstrated to eliminate malignant brain tumors effectively in animal models. In our previous study, the implantation of high-titer retrovirus-producing fibroblasts into tumors resulted in highly efficient transduction in vivo. The transduced glioma cells migrated far from the implantation site, potentiating the induction of the remarkable bystander effect. It is also possible, however, that the implantation of murine fibroblast-derived virus-producing cells may induce an immune response in patients. In this study, we prepared retroviruses carrying the herpes simplex virus thymidine kinase (HTK) gene with titers of 1.4–2.5 × 1011 colony-forming units (c.f.u.)/ml, and stereotactically inoculated only 3 μl of the HTK-bearing retroviruses into the brain tumors of mice. Following repetitive ganciclovir (GCV) intraperitoneal injection, effective killing of glioma cells in the mouse brain was observed. The transduction efficiency was nearly as high as that observed for the implantation of high-titer retrovirus-producing fibroblasts. Eighty percent of brain tumor-bearing mice were completely cured by our treatment protocol using concentrated HTK-harboring retroviruses. Our results suggest that repeated inoculations of high-titer retroviruses carrying the HTK gene followed by GCV treatment may be a promising strategy for the clinical treatment of malignant gliomas.

Systemic interleukin 12 displays anti-tumour activity in the mouse central nervous system

In various systemic cancers, interleukin 12 (IL-12) induces anti-tumour immunity mediated by T lymphocytes and natural killer cells. To determine whether IL-12 has anti-tumour activity against malignant gliomas in the central nervous system (CNS), which is considered to be an immunologically privileged site, we treated mice with meningeal gliomatosis by intraperitoneal (i.p.) or intrathecal (i.t.) administration of recombinant murine IL-12. Although untreated mice revealed symptoms, such as body weight loss or paraplegia as a result of the meningeal gliomatosis within 8 days after tumour inoculation, 80% of the mice treated with IL-12 at 0.5 microg i.p. were cured. Many lymphocytes, mostly CD4+ and CD8+ cells, infiltrated to the tumours of IL-12-treated mice. The numbers of these cells increased in the cervical lymph nodes, into which the cerebrospinal fluid drains, and there they secreted a considerable amount of interferon-gamma. Mice cured by IL-12 rejected subcutaneous or i.t. rechallenge with their original glioma cells, but the same mice were not able to reject other syngeneic tumour cells. These results indicate that the immune system recognizes malignant glioma cells in the subarachnoid space of the CNS and that systemic IL-12 may produce effective anti-tumour activity and long-lasting tumour-specific immunity.

Meningeal neoplasms associated with cerebral vascular malformations

Two patients with meningeal neoplasms and nearby vascular anomalies are reported. The lesions were excised and histologically confirmed. One patient had a meningotheliomatous meningioma and an arteriovenous malformation involving the right frontal lobe; the other, a hemangiopericytoma and an arteriovenous malformation in the right parietooccipital region.

[Effects of phenytoin on cell-mediated immunity].

SummaryThe effects of phenytoin on cellular immunity were examined in murine models. Fresh splenocytes were obtained from mice which had received 1 mg/day of phenytoin i.p. for 28 days. The serum concentration of phenytoin in these animals was 10–10 μg/ml. The proliferative response of splenocytes to mitogens was assessed by 3H-thymidine incorporation. The cytotoxic activities of cells such as natural killer (NK) cells, cytotoxic T lymphocytes (CTL), and lymphokine-activated killer (LAK) cells were estimated by a 4-h 51Cr release assay. The 3H-thymidine incorporation of splenocytes was reduced significantly (P<0.01) in phenytoin-treated mice. The NK and CTL activities of splenocytes from phenytoin-treated mice were significantly suppressed. However, the LAK activity of phenytoin-treated mice was equal to that of control mice.

Anticonvulsant-induced Suppression of IFN-γ Production by Lymphocytes Obtained from Cervical Lymph Nodes in Glioma-bearing Mice

It is well known that phenytoin can cause impairment of cellular immunity. The authors investigated the potential role of other anticonvulsant drugs in the development of antitumor immunity in murine malignant glioma models.The survival rate was determined in murine glioma models using syngeneic 203 glioma cells following treatment with four anticonvuisants, which are most commonly administered to glioma patients, i.e., phenytoin, phenobarbital, valproate and zonisamide. In a second set of experiments, we further examined the effect of these drugs on interferon-γ (IFN-γ) secretion by lymphocytes prepared from cervical lymph nodes (CLN) in the same models. The IFN-γ production of CLN lymphocytes as measured by ELISA method was markedly impaired in the early stage of tumor-bearing mice treated with phenytoin or zonisamide, and the median survival time (MST) of controls and of mice treated with either phenytoin or zonisamide was 13, 10 and 11 days, respectively, which was not a statistically significant difference. Phenobarbital and valproate did not affect either IFN-γ production or their survival rate. In addition, immunohistochemistry showed a reduction in tumor-infiltrating lymphocytes containing CD4 and CD8 antigens in the mice treated with phenytoin and zonisamide.Two anticonvulsants, phenytoin and zonisamide, showed a significant inhibitory effect on IFN-γ production by CLN lymphocytes in murine glioma models, although there was no statistically significant difference in MST between controls and the anticonvulsant-treated mice. These drugs might have some detrimental influence on the prognosis of brain tumor patients when combined with the latent immune dysfunction accompanying the tumor-bearing state.

Neural transplantation in mouse Parkinson's disease.

A complete recovery from the methamphetamine-induced rotational response was shown in C57BL/6 (H-2b) mice which had had unilateral 6-OHDA lesions in the nigrostriatal pathway about 60 days after transplantation of approximately 1 x 10(6) dopamine-rich cells from syngeneic or allogeneic (C3H/HeN, H-2k) mouse embryos (ED 15), without immunosuppressive agents. Morphological examination showed tyrosine-hydroxylase-immunoreactive cell clusters around the needle tract in the mice which were transplanted not only with syngeneic cells but also with allogeneic cells. This might indicate that so-called immunosuppressive agents are not necessary for grafted embryonic cells to survive in an allogeneic mouse brain.

Transplant-induced Recovery from 6-OHDA Lesions of the Nigrostriatal Dopamineneurones in Mice

Attempts to reconstruct the damaged nigrostriatal pathway in experimental models of Parkinsons disease have thus far been carried out in animals with neurotoxically induced dopamine deficiency. Our study established that unilateral 6-hydroxydopamine (6-OHDA) lesions of the nigrostriatal dopamine (DA) neurons produced a well-characterized functional asymmetry in the behaviour of the C57BL/6 (H-2b) mice. The intraperitoneal administration of methamphetamine induced ipsilateral rotation at 7-20 turns/min 1 x 10(6) syngenic DA-rich cells of embryonic ventral mesencephalon were stereotaxically transplanted in the caudate-putamen. A complete recovery of methamphetamine-induced rotational response was produced around the 60th day after the syngenic cell suspension graft. And a complete compensation of the rotational response was also brought about with the DA-rich cells from embryonic ventral mesencephalon (crown-rump length; 10-13 mm) of allogenic C3H/HeN (H-2k) mice. The FACS IV analysis revealed no H-2 (Kk and Iak) antigens before transplantation of these embryonic cells. Immunohistochemistry showed that the dopaminergic fibers had grown predominantly into the ipsilateral caudate-putamen. These results provide evidence of integration of syngenic and allogenic grafts and host tissue. And the immunological response in the transplanted brain are under investigation.

Internalization with high targeting potential of mouse monoclonal antibody ONS-M21 recognizing human malignant glioma antigen

In order to evaluate the targeting potential of mouse monoclonal antibody ONS-M21 recognizing a human astrocytoma- and medulloblastoma-associated antigen, the internalization ability of this antibody and the selective cytotoxicity in the toxin-conjugated form were examined. Internalization assay with 125I-labeled ONS-M21 showed that about 20% of the total radioactivities was detected in the cellular fraction of human medulloblastoma cell line ONS-76 cells and that the reaction reached a plateau level in 30 min. To examine the selective delivery capacity of a high molecular substance in place of 125I, an immunotoxin was prepared with ricin A chain and ONS-M21 via disulfide bonds. A cytotoxic effect against ONS-76 cells was found with [3H]thymidine incorporation assay using the immunotoxin, but not against antigen-negative HuH-7 and SW480 cells. These results suggest that ONS-M21 could effectively deliver toxins, chemotherapeutic agents or radionuclei to malignant glioma specifically.