Franco Venanzi

Prognostic relevance of altered Fas (CD95)‐system in human breast cancer

The Fas ligand (FasL) and its receptor Fas (APO‐1 or CD95) are members, respectively, of the tumor necrosis factor family that, upon interaction with each other, play a key role in the initiation of one apoptotic pathway. Faulty regulation of the Fas system has been described in a variety of human tumors with different histogenetic origin. Here, we describe the expression and distribution of Fas receptor and ligand pair antigens in surgical samples collected from a cohort of 186 patients bearing breast neoplasms (45 benign and 141 malignant lesions). Immunoperoxidase staining of formalin‐fixed tissues showed that 91.1% of benign lesions expressed Fas, which was present in only 56.7% of malignant tumors. On the other hand, FasL was found positive in 22.2% of benign neoplasms and up‐regulated in in situ as well as invasive carcinomas (53.9%). Moreover, in malignant tumors, the expression of receptor and ligand antigens appeared to be inversely related. When these findings were correlated with pathological parameters of prognostic relevance, a significant association was observed between FasL and the presence of metastatic lymph nodes and larger tumor size while Fas expression correlated to node‐negative status and smaller tumor size. Patients with Fas positive tumors exhibited longer disease‐free survival than those with Fas‐negative carcinoma while FasL did not influence patient outcome. These relationships indicate that benign and malignant mammary lesions are characterized by differential cellular expression of Fas and FasL and suggest that a neoplastic Fas negative/FasL positive phenotype may be linked to breast cancer progression. Int. J. Cancer (Pred. Oncol.) 89:127–132, 2000.

Genetic immunization against neu/erbB2 transgenic breast cancer

Abstract erbB2/neu, an overexpressed oncogene product, has been proposed as a human cancer vaccine target. In the present study, transgenic (rat neuNT oncogene) FVB/neu mice, developing metastasizable mammary carcinoma, were immunized with a plasmid DNA encoding are not tolerant to the self antigen and sequences. We report that transgenic tumour-bearing mice, like some breast cancer patients erbB2+X, develop anti-neu autoimmune responses, which can be boosted and skewed to a Th1 phenotype by DNA immunization. Intramuscular injections of neuNT plasmid drastically reduced (or even prevented in a small number of treated mice) the outgrowth of mammary neoplasms as well as their metastatic penetrance. Furthermore, DNA immunization caused haemorrhagic necrosis of established cancer nests, leaving a greatly reduced portion of the tumour burden for the host to cope with. The antitumour activities we obtained, in this very challenging model for cancer immunotherapy, lay the foundation for DNA-based immunization to control erbB2/neu-overexpressing neoplasms.

Altered Expression of FAS System Is Related to Adverse Clinical Outcome in Stage I-II Breast Cancer Patients Treated with Adjuvant Anthracycline-Based Chemotherapy

Purpose: To determine the prognostic value of Fas receptor and Fas ligand (FasL) as apoptosis-related biomarkers in the context of chemoresponsiveness in breast cancer (BC) patients submitted to anthracycline-based adjuvant therapy. Experimental Design: Fas and FasL were investigated by immunohistochemistry in surgical samples collected from 167 stage I-IIa-b BC patients enrolled in a prospective clinical trial using epirubicin plus cyclophosphamide in the adjuvant setting. Results: Fas and FasL were significantly associated with tumor stage (P < 0.0001). Multivariate analysis indicated that stage, loss of Fas (relative risk, 8.5 and 9.12; P < 0.0001) and FasL up-regulation (relative risk, 2.38 and 2.88; P = 0.01) were independent prognostic variables influencing both disease-free survival (DFS) and overall survival (OS). A Cox analysis using a four-category Fas/FasL phenotype (+/−, +/+, −/+, −/−) as a stratification factor evidenced a highly positive association between Fas/FasL phenotype and the cumulative hazard of relapse and death in the entire series of patients. We also estimated the DFS and OS for different combinations of the pathological-tumor-node-metastasis (TNM) stage and Fas/FasL by using the K sample log-rank exact test demonstrating that significantly shorter DFS and OS were observed in Fas-negative and FasL-positive patients in both stage I-IIa and IIb. Conclusions: Data presented herein demonstrated that, according to a number of in vitro studies, the prognosis for BC patients receiving adjuvant anthracycline-based chemotherapy strongly depends on the Fas/FasL status. Therefore, a concomitant altered pattern of Fas/FasL expression seems to configure an aggressive tumor phenotype linked to disease progression.

Nucleic acids in mummified plant seeds: biochemistry and molecular genetics of pre-Columbian maize.

Nucleic acids fractions were isolated from pre-Columbian maize seeds and characterized using different approaches such as polyacrylamide gel electrophoresis, anti-DNA antibody binding, HPLC fractionation, molecular hybridization with cloned genes, and DNA amplification by the polymerase chain reaction. The nucleic acids were found to be very depolymerized (less than or equal to 140 base pairs in length) and composed mainly of ribosomal RNA. Despite the very low amount and degree of polymerization of seed DNA, specific maize nuclear Mu1, Mu4, Mu8 and, possibly, Mu5 element components could be detected, thanks to the use of amplification systems as short as 90 bp. The results suggest that evaluation of the relative proportions of Mu-type element components and, possibly, other maize genomic components in single mummified kernels, may offer a new key to the study of ancient maize populations.

Autoantibody to p185erbB2/neu oncoprotein by vaccination with xenogenic DNA.

Abstract The passive transfer of antibodies and vaccination procedures against p185, the erbB2/neu oncoprotein, are approaches being explored for treatment of human breast cancer. We now report the possibility of using the erbB2/neu gene as an immunogen. This study demonstrates that intramuscular or intradermal injections of rat neuNT full-length DNA into mice generate anti-p185 autoantibodies. Anti-p185 polyclonals were also shown to bind the homologous human receptor ErbB2 and to stain specimens of breast adenocarcinoma from both neu-transgenic mice and humans. Further, in vitro assays demonstrated that anti-p185 IgG (probably dependent on CD4+ Th1) were able to inhibit human SKBR3 tumour cell growth and to mediate their lysis by natural killer cells. The continuous presence of circulating neu autoantibodies in mice did not cause any discernible toxic effects on normal tissues expressing low levels of self-antigen, even after 1 year.

Small peptides controlling transcription in vitro are bound to chromatin DNA.

Low-molecular-weight peptides are linked to the chromatin DNA of several tissues, from which they can be dissociated by alkaline extraction at pH 9.5. The level of the active peptide fraction ranges between 10 and 35 micrograms/mg DNA. The removal of peptides from DNA causes a relevant amplification of DNA template capacity for prokaryotic and eukaryotic RNA polymerases. Gel filtration on Sephadex G-25 or BioGel P4 shows that the chromatin peptide fraction from purified DNA migrates as a sharp peak with an elution volume corresponding to a molecular weight of about 1000. The chromatin peptides are further purified by Sephadex G-10 and high-performance liquid chromatography. Four active fractions are isolated, one of which shows very high inhibition activity on the RNA synthesis in vitro. The amino acid analysis and the inhibition mechanism of the purified peptides are reported.

Antibody and CD8+ T Cell Responses against HER2/neu Required for Tumor Eradication after DNA Immunization with a Flt-3 Ligand Fusion Vaccine

Purpose: HER2/neu is frequently overexpressed in breast cancer. In a mouse model, vaccination with HER2/neu DNA elicits antibodies that confer partial protection against tumor challenge. Experimental Design: To enhance antitumor immunity, we fused cDNA encoding Flt-3 ligand (FL) to the rat HER2/neu extracellular domain (neu), generating a chimeric FLneu molecule. FLneu and neu DNA vaccines were compared for immunogenicity and their ability to protect mice from tumor challenge. Results: The neu vaccine generated a HER2/neu-specific antibody response. In contrast, vaccination with FLneu induced CD8+ T cells specific for HER2/neu but a negligible anti-HER2/neu antibody response. The switch from an antibody-mediated to T cell–mediated response was due to different intracellular localization of neu and FLneu. Although the neu protein was secreted, the FLneu protein was retained inside the cell, co-localizing with the endoplasmic reticulum, facilitating processing and presentation to T cells. The neu and FLneu vaccines individually conferred only weak tumor immunity. However, efficient tumor rejection was seen when neu and FLneu were combined, inducing both strong anti-HER2/neu-specific antibody and T cell responses. Adoptive transfer of both immune CD8+ T cells and immune sera from immunized mice was required to confer tumor immunity in naïve hosts. Conclusions: These results show that active induction of both humoral and cellular immunity to HER2/neu is required for efficient tumor protection, and that neither response alone is sufficient.

Tumor endothelial marker 8 enhances tumor immunity in conjunction with immunization against differentiation Ag

BACKGROUND We have previously shown that xenogeneic DNA vaccines encoding rat neu and melanosomal differentiation Ag induce tumor immunity. Others have developed vaccines targeting tumor neovasculature. Tumor endothelial marker 8 (TEM8) is expressed in the neovasculature of human tumors, and in the mouse melanoma B16, but its expression is limited in normal adult tissues. We describe a DNA vaccine combining xenogeneic tumor Ag and TEM8. METHODS In-situ hybridization was used to detect TEM8 RNA in mouse tumors. Mice transgenic for the rat neu proto-oncogene were immunized with DNA vaccines encoding TEM8 and the extracellular domain of rat neu and challenged with the 233-VSGA1 breast cancer cell line. In parallel experiments, C57BL/6 mice were immunized with TEM8 and human tyrosinase-related protein 1 (hTYRP1/hgp75) and challenged with B16F10 melanoma. RESULTS TEM8 was expressed in the stroma of transplantable mouse breast and melanoma tumors. In both model systems, TEM8 DNA had no activity as a single agent but significantly enhanced the anti-tumor immunity of neu and hTYRP1/hgp75 DNA vaccines when given in concert. The observed synergy was dependent upon CD8+ T cells, as depletion of this cell population just prior to tumor challenge obviated the effect of the TEM8 vaccine in both tumor models. DISCUSSION A local immune response to TEM8 may increase inflammation or tumor necrosis within the tumor, resulting in improved Ag presentation of HER2/neu and hTYRP1/hgp75. Alternatively, TEM8 expression in host APC may alter T-cell interactions or homing. In this way, TEM8 may act more as an adjuvant than an immunologic target.

DNA and RNA from Ancient Plant Seeds

Plant seeds are peculiar structures designed to protect the genetic material of their embryo until long after the death of the mother plant. For this reason, the cells of a plant seed are adapted to survive the most stringent environmental conditions. After prolonged storage, however, a seed loses its capacity to germinate (viability). If the seed is kept in a dry environment it undergoes a sort of spontaneous mummification with no appreciable change in its external morphology. With the passing of centuries it will acquire a dark reddish-brown color, yet show an amazing degree of structure conservation (for a review, see Toole 1986).

Molecular stability of DNA typing short tandem repeats in the mammary tree of patients with breast cancer.

Archival pathologic specimens are a rich source for the studies of hereditary diseases, cancer genetics, and identification cases in forensic science. In this study, the intraindividual consistency of eight identifying microsatellite polymorphisms (i.e., HMTH01, vWFA31, F13A, MITMH26, FES-FPS, CD4, TPOX, CSF1PO)in a cohort of 40 patients with invasive breast carcinoma were analyzed. Nests of cancer and adjacent morphologically normal ductal–lobular structures (TDLUs) were microdissected as discrete regions from hematoxylin-eosin–stained slides. As controls for each case, DNA templates were prepared from TDLUs located in nontumor quadrants and from unaffected breast skin. Over 1,400 carefully controlled PCR reactions were reviewed, and no evidence was found for microsatellite mismatches among intraindividual cancer and control DNAs. The negative results, supported by validation experiments, strongly argue that alterations of simple repeats are rare somatic events during the onset and progression of breast cancer.This study suggests that PCR artifacts may be a relevant cause of misdiagnosis of microsatellite instability in human sporadic cancer.