Ovarian steroid hormones: Effects on immune responses and Chlamydia trachomatis infections of the female genital tract

Female sex hormones are known to regulate the adaptive and innate immune functions of the female reproductive tract. This review aims to update our current knowledge of the effects of the sex hormones estradiol and progesterone in the female reproductive tract on innate immunity, antigen presentation, specific immune responses, antibody secretion, genital tract infections caused by Chlamydia trachomatis, and vaccine-induced immunity

Prp4 kinase grants the license to splice: control of weak splice sites during spliceosome activation

The genome of the fission yeast Schizosaccharomyces pombe encodes 17 kinases that are essential for cell growth. These include the cell-cycle regulator Cdc2, as well as several kinases that coordinate cell growth, polarity, and morphogenesis during the cell cycle. In this study, we further characterized another of these essential kinases, Prp4, and showed that the splicing of many introns is dependent on Prp4 kinase activity. For detailed characterization, we chose the genes res1 and ppk8, each of which contains one intron of typical size and position. Splicing of the res1 intron was dependent on Prp4 kinase activity, whereas splicing of the ppk8 intron was not. Extensive mutational analyses of the 5' splice site of both genes revealed that proper transient interaction with the 5' end of snRNA U1 governs the dependence of splicing on Prp4 kinase activity. Proper transient interaction between the branch sequence and snRNA U2 was also important. Therefore, the Prp4 kinase is required for recognition and efficient splicing of introns displaying weak exon1/5' splice sites and weak branch sequences.We thank the DAAD (Deutscher Akademischer Austausch Dienst, German Academic Exchange Service) for their support of this project as part of the Spanish–German exchange program,which enabled DE to work in José Ayté’s laboratoryat the Universitat Pompeu Fabra (Barcelona, Spain). The Spanish Ministry of Science and Innovation (BFU2012-31939), PLAN E and FEDER to JA and a Georg-Christoph-Lichtenberg scholarship to AR, provided by the federal state of Niedersachsen (Germany)

Immunomodulation of multiple myeloma bone disease

Multiple myeloma (MM) is a clonal malignancy of terminally differentiated plasma cells. Myeloma patients often have extensive skeletal complications, including bone pain, osteolytic lesions and pathological fractures, which represent the major cause of morbidity and possible mortality. Osteolysis is due to the uncoupling of bone cell activity, caused by osteoclast activation and osteoblast inhibition. Osteoclast biology is dominantly regulated by the RANK/RANKL/OPG axis. A disruption of RANKL/OPG ratio, due to the prevalence of RANKL and/or inactivation of OPG, has been reported in MM bone disease by different mechanisms involving either malignant plasma cells and/or other cells of immune system. Despite the major involvement of RANKL in MM is well documented, a dysregulated production of other cytokines either with pro- or anti-osteoclastogenic activity can also contribute to the development of osteolytic lesions by acting directly on bone cells or altering RANKL/OPG axis. This review focuses on molecules produced by cells of immune system able to induce bone destruction in MM bone disease