Surinder K. Batra

Prognostic implications of chromosome 17p deletions in human medulloblastomas.

DNA derived from medulloblastoma biopsies was analyzed to determine if deletions of the 17p region, mutations of theTP53 gene, or amplification of the c-myc, N-myc, EGFR (epidermal growth factor receptor), orMDM2 (murine double-minute-2) genes was indicative of a poor prognosis. Loss of heterozygosity for 17p, observed in 8/28 (29%) paired samples, was associated with a shortened survival period (p=0.045 by the logrank test).TP53 mutations occurred in 2/46 (4.3%) tumor samples. c-myc Amplification was seen in 3/43 (6.9%) cases, while none of the tumors contained amplified N-myc, EGFR, orMDM2 genes. These results demonstrate that, while only rare medulloblastomas containTP53 gene mutations or amplification of the c-myc gene, loss of heterozygosity on chromosome 17p is indicative of a significantly worse prognosis among patients with these tumors. Further, these results provide a strong impetus for a prospective analysis of loss of heterozygosity in a cooperative group setting, which would include tumor staging, a selection of treatment modalities, and multivariate analyses.

In vitro and in vivo behavior of radiolabeled chimeric anti-EGFRvIII monoclonal antibody: Comparison with its murine parent

The mutant version of the epidermal growth factor receptor EGFRvIII has been found on gliomas and other tumors, but not on normal tissues. Radioiodinated murine (mu) L8A4 monoclonal antibody (MAb) specifically targets EGFRvIII xenografts in vivo when labeled using N-succinimidyl 5-iodo-3-pyridinecarboxylate (SIPC). A chimeric (ch) MAb consisting of the variable region of muL8A4 and the constant domains of human IgG2 has been developed that has an affinity and radioiodinated immunoreactive fraction comparable to muL8A4. In vitro, both MAbs were internalized and processed by EGFRvIII expressing cell lines (U87MG delta EGFR or NR6M) at similar rates (maximum intracellular retention, 35-40%). In paired-label tissue distribution studies in athymic mice bearing U87MG delta EGFR tumor xenografts, the ch:mu L8A4 uptake ratio in normal tissues rose to greater than 2:1, whereas in tumor, the ratio remained 1:1 throughout the experiment. These results indicate that chL8A4 exhibits similar binding and internalization properties as its murine parent, but suggest different intracellular processing and/or deposition of catabolites in normal tissues for chL8A4.

Microsatellite analysis of childhood brain tumors

Loss of heterozygosity at specific chromosomal locations has been taken as evidence of a tumor suppressor gene located in that area. We performed a genomic allelotyping study on 46 childhood brain tumors of different histopathological types in order to identify and confirm common areas of deletion in different tumor types. Two hundred microsatellite DNA probes equally distributed over the 22 autosomes were applied, covering the genome in steps of approximately 25 cM. Our results confirm frequent loss of heterozygosity of chromosome arms 9q, 10q, 11p, 11q, 16q, and 22q in high‐grade gliomas, medulloblastomas, and ependymomas. In addition, we found a new region of loss on chromosome segment 2p21‐23 affected predominantly in high‐grade gliomas and medulloblastomas. Genes Chromosom Cancer 15:54–63 (1996).

Generation and characterization of a mouse/human chimeric antibody directed against extracellular matrix protein tenascin

The murine anti-tenascin monoclonal antibody 81C6, following iodination, has been shown to be an efficient localizing and therapeutic agent in both subcutaneous and intracranial human glioma xenograft models in athymic mice and rats. Similarly, effective monoclonal antibody 81C6 localization has been demonstrated in glioma patients, and Phase I trials with the intact murine IgG2b kappa molecule are currently in progress. In order to maximize the potential for repeated administration by minimizing murine Fc-mediated immunogenicity and reducing Fc-mediated immune effects, we created murine 81C6 variable region/human IgG2 chimeric monoclonal antibodies by the molecular cloning of the variable region genes of mouse 81C6 and their genetic linkage to human constant region exons. The resulting chimeric constructs were introduced into SP2/0 cells, and stable transfectomas were selected by G418 and mycophenolic acid resistance. The resistant clones were screened for anti-tenascin activity on tenascin-coated plates by enzyme-linked immunosorbent assay. The N-terminal amino acid sequence of both heavy and light chains of the purified chimeric 81C6 antibody matched exactly with that of the native mouse 81C6 as well as with that deduced from the nucleotide sequence. The production level of chimeric 81C6 (13.9 mg/ml) from ascites in the highest expressing transfectoma was much higher than that of native mouse 81C6 (2.5 mg/ml). The chimeric antibody showed the same specificity and equivalent affinity for human intact tenascin or tenascin-expressing cells as the native mouse 81C6 antibody. Direct comparison of radioiodinated chimeric and radioiodinated mouse 81C6 biodistribution in subcutaneous and intracranial xenograft-bearing mice showed higher tumor-to-normal tissue ratios for chimeric 81C6 as compared with native mouse 81C6. The improved localizing and clearance characteristics of chimeric 81C6 in xenograft model systems suggests that chimeric 81C6 would be an improved reagent for intracompartmental therapy of tenascin-expressing tumors in the human central nervous system.

A genetically modified allogeneic cellular vaccine generates MHC class I-restricted cytotoxic responses against tumor-associated antigens and protects against CNS tumors in vivo

An active immunotherapeutic strategy using transfected allogeneic cells for targeting the mutant epidermal growth factor receptor (EGFRvIII) on intracranial tumors was examined. Immunization with allogeneic 300.19/EGFRvIII cells induced CD8+ cytotoxic T-lymphocytes against EGFRvIII bearing syngeneic B16-F10 melanoma or 560 astrocytoma cells (H-2b), but not against allogeneic NR6 cells (H-2q) also bearing EGFRvIII significant NK cell activity was also noted in vitro. Vaccination protected against intracranial challenge with EGFRvIII-positive tumor, with 50% long term survival. In vivo depletions of effector cell subsets demonstrated the requirements for both CD8+ and CD4+ T-cells but not NK cells in producing this protective effect. These data demonstrate the generation of significant, antigen-specific and MHC class I-restricted cytotoxic immune responses which are effective against tumors present in the CNS.

Chimeric anti-tenascin antibody 81C6: Increased tumor localization compared with its murine parent

When labeled using the Iodogen method, a chimeric antibody composed of the human IgG2 constant region and the variable regions of murine anti-tenascin 81C6 exhibited superior uptake in human glioma xenografts compared with its murine parent. In the current study, three paired-label experiments were performed in athymic mice with subcutaneous D-54 MG human glioma xenografts to evaluate further the properties of radioiodinated chimeric 81C6. These studies demonstrated that (a) the enhanced tumor uptake of chimeric 81C6 is specific; (b) when labeling was performed using N-succinimidyl 3-iodobenzoate, chimeric 81C6 again showed preferential accumulation in tumor compared with murine 81C6; and (c) the tumor uptake advantage observed previously with murine 81C6 for N-succinimidyl 3-iodobenzoate compared with Iodogen labeling did not occur with chimeric 81C6.

Expression of the human MUC1 mucin cDNA in a hamster pancreatic tumor cell line HP-1

SummaryA full length cDNA for the human mucin gene, MUC1, under the control of human β actin promoter, was transfected into a carcinogen induced hamster pancreatic ductal tumor cell line, HP-1. Transfectants were selected by resistance to geneticin. Integration of the foreign human MUC1 cDNA occurred at multiple sites in the genome of HP-1. Northern blot analysis showed MUC1 expression in cells transfected with MUC1 cDNA placed in the correct orientation, but not in control cells (HP-1 cells transfected with vector alone, or with the MUC1 cDNA placed in the antisense orientation). Western blot analysis using monoclonal antibody HMFG-2, which is reactive with the MUC1 protein, showed results consistent with the Northern blot data. Positive immunoperoxidase staining using HMFG-2 was seen in HP-1 cells transfected with MUC1 cDNA but not with untransfected or HP-1 control cells. The integration of human MUC1 mucin gene in HP-1 cells caused no significant change in the growth rate of HP-1 cells in vitro, but resulted in an enhanced growth rate for xenografts of MUC1 transfected HP-1 cells grown in nude mice.

A simple, effective method for the construction of subtracted cDNA libraries☆

A simple method is described for the construction of subtracted cDNA libraries. The technique was used to create a human pancreatic tumor cDNA library that was screened using either hybridization with cDNA probes or antibodies. cDNA from a well-differentiated tumor cell line (CD-11) was subtracted against RNA from an undifferentiated tumor cell line (Panc-1). The subtracted cDNA was purified from RNA-cDNA hybrids by oligo-dA cellulose affinity chromatography. Single-stranded subtracted cDNA was used as a template for random primed second-strand synthesis using the Klenows fragment of DNA polymerase. After ligation with Eco R1 adapters, cDNA was inserted into lambda gt11. A library of 140,000 primary pfu was obtained that contained 92% recombinants. A small portion of this library (40,000 pfu) was subjected to probe screening with a mucin cDNA probe known to be differentially expressed by CD-11 cells. The ratio of mucin cDNA clones to actin cDNA clones was increased by greater than 300-fold in the subtracted cDNA library compared to a standard cDNA library from the same cell line. The absolute number of mucin cDNA clones per 40,000 pfu was also increased 32-fold in the subtracted library. Pancreatic tumor mucin cDNAs were also identified in the subtracted library by antibody screening. The subtraction procedure yielded a 50-fold enrichment in differentially expressed cDNA detected by antibodies, compared to a nonsubtracted library from the same cell line.

Expression of the human mucin gene, Muc 1, in normal tissues and metastatic pancreatic tumors

SummaryExpression of Muc 1 mRNA was evaluated in normal and metastatic-tumor tissues obtained from a patient who died from extensive metastasis of a well-diffferentiated pancreatic adenocarcinoma. Northern blot analysis of total RNA from these tissues revealed that Muc 1 mRNA was detectable and unaltered in size in all metastatic tumor samples tested, including those from lymph node, liver, colon, and stomach. Southern blot analysis indicated that two forms of Muc 1 gene alleles were present in all normal and metastatic tissuess of this patient with no evidence for gross rearrangement, deletion, or duplication.