A revised ANXA5 ‘protective shield’ model is emphasized, where decreased coverage resulting of M2 carriage at placental villi could lead directly to the observed pathology and on the other hand through exposing of antiphospholipid antigenic determinants, to the development of antiphospholipid
antibodies (aPL). The aPL then can further disrupt the ANXA5 protective shield. Available and prospective evidence for this revised model is discussed. Conclusions are made about the diagnostic implications of M2 carriage and possible therapeutic strategies with anticoagulants, LY2090314 mouse proven successful in obstetric antiphospholipid syndrome (APS) treatment. Lupus (2012) 21, 796-798.”
“The isolation of human embryonic stem cells (ESC) in 1998 has created the hope that stem cells will one day be used to regenerate tissues and organs, even though it is obvious that a AG-014699 supplier number of hurdles will
need to be overcome for such therapies to become reality. The cloning of “Dolly” in 1997, more than 40 years after the first frogs were cloned, combined with the very fast progress made in our understanding of the molecular processes that govern the pluripotency of ESC has lead to the ability of scientists to recreate a pluripotent state in fibroblasts and other cells from mouse, rat and man, named induced pluripotent stem cells (iPSC). This feat makes it theoretically possible to create patient specific pluripotent stem cells whose differentiated check details progeny could be used in an autologous manner obviating the need for immunesuppression that would be needed to use allogeneic
ESC-derived differentiated cells. In addition, the ability to generate custom made pluripotent stem cells will no doubt lead to the development of protein or small molecule drugs that can induce differentiation not only of iPSC or ESC to mature tissue cells, but also endogenous tissue stem cells. Moreover, it allows scientists to create models of human diseases and may aid the pharmaceutical industry in testing more rigorously toxicity of drugs for human differentiated cells. Thus, there is little doubt that progress in stein cell biology will change many aspects of medicine as we know it in the next one to two decades. (C) 2009 Elsevier Masson SAS. All rights reserved.”
“Multiple endocrine neoplasia type 1(MEN1) is an autosomal dominant syndrome. Although thymic carcinoid tumor is recognized as a part of MEN1 syndrome but functioning thymic carcinoid tumor as the first presentation of the MEN1 seems to be very rare. In this report, we present a 29-year-old male who developed ectopic Cushing syndrome secondary to thymic carcinoid tumor and was diagnosed as MEN1 syndrome 2 years later. Further evaluation revealed the presence of carcinoid tumor and other MEN 1 manifestations in several other member of family.