Secluded Dark Matter Coupled to a Hidden CFT

Models of secluded dark matter offer a variant on the standard WIMP picture and can modify our expectations for hidden sector phenomenology and detection. In this work we extend a minimal model of secluded dark matter, comprised of a U(1)'-charged dark matter candidate, to include a confining hidden-sector CFT. This provides a technically natural explanation for the hierarchically small mediator-scale, with hidden-sector confinement generating m_{gamma'}>0. Furthermore, the thermal history of the universe can differ markedly from the WIMP picture due to (i) new annihilation channels, (ii) a (potentially) large number of hidden-sector degrees of freedom, and (iii) a hidden-sector phase transition at temperatures T << M_{dm} after freeze out. The mediator allows both the dark matter and the Standard Model to communicate with the CFT, thus modifying the low-energy phenomenology and cosmic-ray signals from the secluded sector.Comment: ~50p, 8 figs; v2 JHEP versio

Nr2e3 is a Genetic Modifier That Rescues Retinal Degeneration and Promotes Homeostasis in Multiple Models of Retinitis Pigmentosa

Recent advances in viral vector engineering, as well as an increased understanding of the cellular and molecular mechanism of retinal diseases, have led to the development of novel gene therapy approaches. Furthermore, ease of accessibility and ocular immune privilege makes the retina an ideal target for gene therapies. In this study, the nuclear hormone receptor gene Nr2e3 was evaluated for efficacy as broad-spectrum therapy to attenuate early to intermediate stages of retinal degeneration in five unique mouse models of retinitis pigmentosa (RP). RP is a group of heterogenic inherited retinal diseases associated with over 150 gene mutations, affecting over 1.5 million individuals worldwide. RP varies in age of onset, severity, and rate of progression. In addition, ~40% of RP patients cannot be genetically diagnosed, confounding the ability to develop personalized RP therapies. Remarkably, Nr2e3 administered therapy resulted in reduced retinal degeneration as observed by increase in photoreceptor cells, improved electroretinogram, and a dramatic molecular reset of key transcription factors and associated gene networks. These therapeutic effects improved retinal homeostasis in diseased tissue. Results of this study provide evidence that Nr2e3 can serve as a broad-spectrum therapy to treat multiple forms of RP

The Leber Congenital Amaurosis-Linked Protein AIPL1 and Its Critical Role in Photoreceptors

Mutations in the photoreceptor/pineal-expressed gene, aryl hydrocarbon receptor-interacting protein-like 1 (AIPL1), are mainly associated with autosomal recessive Leber congenital amaurosis (LCA), the most severe form of inherited retinopathy that occurs in early childhood. AIPL1 functions as a photoreceptor-specific molecular co-chaperone that interacts specifically with the molecular chaperones HSP90 and HSP70 to facilitate the correct folding and assembly of the retinal cGMP phosphodiesterase (PDE6) holoenzyme. The absence of AIPL1 leads to a dramatic degeneration of rod and cone cells and a complete loss of any light-dependent electrical response. Here we review the important role of AIPL1 in photoreceptor functionality

FKBP (FK506 Binding Protein)

In the 70s, after a decade from the purification of cyclosporine, a selective immunosuppressant agent and potent tool in transplantation medicine, a novel molecule was purified from bacteria Streptomyces tsukubaensis. This molecule, called FK506, showed the same selective immunosuppressant action as cyclosporine but was 10 to 100 fold more potent. In an attempt to clarify the molecular mechanism through which the new drug exerted such a selective effect on T-cells activation, two laboratories identified the cytosolic receptor for FK506. This so-called FK506 binding protein (FKBP) was purified from bovine thymus, human spleen, and Jurkat T-cell line. The isolated FKBP had an approximate molecular mass of 14 kDa and showed an isomerase activity similar to the recently purified cyclosporine-binding protein, cyclophilin, but, it was inhibited by FK506 and rapamycin but not cyclosporine. The subsequent cloning of FKBP gene revealed that FKBP and cyclophilin had dissimilar sequences in spite of their common enzymatic activity. The identified FKBP gene encoded for a protein of 108 aminoacids with a relative molecular mass of 11,819. For this reason, the progenitor of this nascent class of proteins was later known as FKBP12. The subsequent studies showed that FKBP12 was just a member of a ubiquitous and evolutionarily conserved sub-family of proteins which differ from each other in their molecular weight and structure. All FKBPs share a highly conserved domain, termed “FK-12 like domain”, capable of binding to FK506 and exerting isomerase properties, i.e. interconversion from cis-to-trans and trans-to-cis of peptide bonds involving proline, on protein substrates. A schematic historical background of the 17 FKBPs so far identified is shown. A general overview of FKBP structure, function and eventually associated disease is given in this monograph, with the order of proteins following the chronology of discovery