Editorial research and the publication process in biomedicine and health: Report from the Esteve Foundation Discussion Group, December 2012.

Despite the fact that there are more than twenty thousand biomedical journals in the world, research into the work of editors and publication process in biomedical and health care journals is rare. In December 2012, the Esteve Foundation, a non-profit scientific institution that fosters progress in pharmacotherapy by means of scientific communication and discussion organized a discussion group of 7 editors and/or experts in peer review biomedical publishing. They presented findings of past editorial research, discussed the lack of competitive funding schemes and specialized journals for dissemination of editorial research, and reported on the great diversity of misconduct and conflict of interest policies, as well as adherence to reporting guidelines. Furthermore, they reported on the reluctance of editors to investigate allegations of misconduct or increase the level of data sharing in health research. In the end, they concluded that if editors are to remain gatekeepers of scientific knowledge they should reaffirm their focus on the integrity of the scientific record and completeness of the data they publish. Additionally, more research should be undertaken to understand why many journals are not adhering to editorial standards, and what obstacles editors face when engaging in editorial research

Activation properties of T cell receptor-gamma delta hybridomas expressing diversity in both gamma- and delta-chains.

To elucidate the structure, diversity, and activation properties of the murine T3-associated gamma delta-receptor, examination was made of the gamma delta and T3 components, T cell receptor (TCR) gene transcription, activation properties, and lymphokine production in a panel of four cloned T cell hybridomas expressing a TCR-gamma delta. Biochemical analysis of the gamma and delta proteins expressed on these hybridomas reveals new gamma and delta species not observed in whole populations of dLy-1 Lyt-2-L3T4-thymocytes from which these hybridomas were derived. Thus, analysis of expression of the TCR-gamma delta complex at the clonal level indicates that both gamma and delta appear to be expressed as multiple distinct gene products within a homozygous inbred mouse strain. Northern blot analysis reveals that, whereas all gamma delta hybridomas had mature 1.5-kb TCR-alpha-chain and mature TCR-gamma-chain transcripts, none had mature 1.3-kb TCR-beta-chain transcripts, thus indicating that the type of TCR heterodimer expressed reflects of the state of TCR gene transcription in these hybridomas. Our results also reveal striking similarities between TCR-gamma delta and TCR-alpha beta cells with respect to their activation properties. First, all five of the T3 components associated with the gamma delta-complex are of the same size and have the same glycosylation patterns as those associated with alpha beta-heterodimers. Second, induction of function in these gamma delta cells (assayed by lymphokine production) can be achieved with a variety of stimuli known to elicit activation signals in alpha beta cells as well: direct receptor-engagement (i.e. through anti-Thy-1), and phorbol 12-myristate 13-acetate-plus-ionomycin-mediated. Collectively, these findings suggest that gamma delta T cells express a receptor of at least limited diversity and use T3-mediated activation pathways very similar to those employed by TCR-alpha beta-bearing T cells.Journal Articleinfo:eu-repo/semantics/publishe