A Quantitative Investigation of Thermosonics

Abstract The objectives of this study were to investigate the relationship between the ultrasonic vibrations of a specimen, with a vertical surface crack, and the thermal response. The heat required to be liberated by the defect to obtain a detectable surface temperature rise was modelled analytically for energy liberated only at the crack tip and over the sides of a crack. Experiments were carried out on a nickel based superalloy plate with a vertical surface crack. The strain around the defect and thermal image were measured simultaneously. Parameters were varied to change the strain to enable a correlation between the strain and surface temperature rise. From this the energy released from the defect was estimated using an optimisation algorithm

A MAGE-A4 peptide presented by HLA-A2 is recognized by cytolytic T lymphocytes

The MAGE-encoded antigens that are recognized by cytolytic T lymphocytes (CTL) are shared by many tumors and are strictly tumor specific. Clinical trials involving therapeutic vaccination of cancer patients with MAGE antigenic peptides or proteins are in progress. To increase the range of patients eligible for therapy with peptides, it is important to identify additional MAGE epitopes. We have used a method to identify CTL epitopes, which selects naturally processed peptides. CD8(+) T cells, obtained from individuals without cancer, were stimulated with autologous dendritic cells infected with a recombinant adenovirus containing the MAGE-A4 coding sequence. Responder cell microcultures that specifically lysed autologous EBV-transformed B cells infected with vaccinia-MAGE-A4 were cloned using autologous stimulator cells infected with a Yersinia enterocolitica carrying the MAGE-A4 sequence. An anti-MAGE-A4 CTL clone was obtained and the epitope was found to be decapeptide GVYDGREHTV (amino acids 230-239) presented by HLA-A2 molecules. The CTL clone lysed HLA-A2 tumor cells expressing MAGE-A4. This is the first reported antigenic peptide encoded by MAGE-A4. It may be valuable for cancer immunotherapy because MAGE-A4 is expressed in 51% of lung carcinomas and 63% of esophageal carcinomas, whereas about 50% of Caucasians and Asians express HLA-A2

Induction of cytolytic T lymphocytes by immunization of mice with an adenovirus containing a mouse homolog of the human MAGE-A genes.

The genes of the MAGE-A family code for antigens that are strictly tumor-specific and are shared by many human tumors. Melanoma patients have been immunized against these antigens and some tumor regressions have been observed. However, no unequivocal evidence of cytolytic T cell responses has been obtained by analyzing the blood lymphocytes of these patients. Hence it was considered worthwhile to examine in mouse systems whether or not immunization against antigens derived from the mouse Mage homologs can produce cytolytic T cell responses. We have identified an antigenic peptide encoded by mouse gene Mage-a2, and here we show that immunization of DBA/2 mice with a recombinant adenovirus containing either just the sequence encoding this peptide or a large part of the Mage-a2 coding sequence produces strong cytolytic T cell responses. The Mage-a2 system should prove useful for the comparison of vaccination modalities that could be applied to human patients in therapeutic vaccination trials with MAGE antigens

Expression of aberrantly glycosylated tumor mucin-1 on human DC after transduction with a fiber-modified adenoviral vector

Background: DC-presenting tumor Ag are currently being developed to be used as a vaccine in human cancer immunotherapy. To increase chances for successful therapy it is important to deliver full-length tumor Ag instead of loading single peptides. Methods: In this study we used a fiber-modified adenoviral vector (rAd5F35) containing full-length tumor Ag cDNA to transduce human monocyte (Mo)-derived DC in vitro. Cells were efficiently transduced and survived for at least 3 days after adenoviral transduction. Phenotype and function after maturation of Mo-DC were not impaired by infection with adenovirus particles. Expression of the tumor-associated Ag mucin-1 (MUC1) was detected using MAb defining different MUC1 glycoforms. Results: Non-transduced mature Mo-DC express endogenous MUC1 with normal glycosylation. After transduction with the rAd5F35-MUC1 adenoviral vector, Mo-DC also expressed MUC1 with tumor-associated glycosylation (Tn and T glycoforms), although no changes in mRNA levels of relevant glycosyltransferases could be demonstrated. Discussion: The presence of aberrantly glycosylated MUC1 may influence Ag presentation of the tumor glycoforms of MUC1 to immune cells, affecting tumor cell killing. These findings could be highly relevant to developing strategies for cancer immunotherapy based on DC vaccines using MUC1 as tumor Ag