The Olfactory Transcriptomes of Mice

The olfactory (OR) and vomeronasal receptor (VR) repertoires are collectively encoded by 1700 genes and pseudogenes in the mouse genome. Most OR and VR genes were identified by comparative genomic techniques and therefore, in many of those cases, only their protein coding sequences are defined. Some also lack experimental support, due in part to the similarity between them and their monogenic, cell-specific expression in olfactory tissues. Here we use deep RNA sequencing, expression microarray and quantitative RT-PCR in both the vomeronasal organ and whole olfactory mucosa to quantify their full transcriptomes in multiple male and female mice. We find evidence of expression for all VR, and almost all OR genes that are annotated as functional in the reference genome, and use the data to generate over 1100 new, multi-exonic, significantly extended receptor gene annotations. We find that OR and VR genes are neither equally nor randomly expressed, but have reproducible distributions of abundance in both tissues. The olfactory transcriptomes are only minimally different between males and females, suggesting altered gene expression at the periphery is unlikely to underpin the striking sexual dimorphism in olfactory-mediated behavior. Finally, we present evidence that hundreds of novel, putatively protein-coding genes are expressed in these highly specialized olfactory tissues, and carry out a proof-of-principle validation. Taken together, these data provide a comprehensive, quantitative catalog of the genes that mediate olfactory perception and pheromone-evoked behavior at the periphery

Current Status of Allograft Tolerance in Intestinal Transplantation

Solid organ transplantation has become a clinical practice after the development of different immunosuppressive drugs that allowed controlling rejection. The price to be paid for that is the permanent risk of infections and malignancies and a significant drug-associated toxicity. The establishment of transplant tolerance has been the “holy grail” for transplantation medicine since its beginnings. Different experimental approaches and clinical trials resulted in the accumulation of knowledge on mechanisms and strategies that favor the establishment of tolerance without achieving the objective of autonomous allograft tolerance in the clinical field. Development of tolerance in intestinal transplantation constitutes a challenging situation due to several particular features that contribute to the generation of a strong allogeneic response. In the present review, we summarize the different immune mechanisms that may contribute to allograft tolerance. The different barriers that should be bypassed in intestinal transplantation to tolerate the graft are discussed. Finally, we revise the strategies that were applied with different degrees of success in the clinical field including the most promising recent approaches and the forthcoming candidates in the field that might be translated into clinical trials in the near future.Fil: Meier, Dominik. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina. Fundación Favaloro; ArgentinaFil: Rumbo, Martín. Universidad Nacional de La Plata. Facultad de Ciencias Exactas. Departamento de Ciencias Biológicas. Laboratorio de Investigaciones del Sistema Inmune; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas; ArgentinaFil: Gondolesi, Gabriel Eduardo. Fundación Favaloro; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentin