A novel approach to investigate the subcellular distribution of nuclear receptors in vivo.

Subcellular compartmentalisation and the intracellular movement of nuclear receptors are major regulatory steps in executing their transcriptional function. Though significant progress has been made in understanding these regulatory processes in cultured mammalian cells, such results have rarely been confirmed within cells of a living mammal. This article describes a simple, time-efficient approach to study the nuclear versus cytoplasmic accumulation of nuclear receptors and the regions of nuclear receptor proteins that govern subcellular trafficking within hepatocytes of live mice.

Blockade of the passive cell death pathway does not prevent tolerance induction to islet grafts.

Background: T-cell apoptosis is an important regulatory mechanism in transplant tolerance. The aim of this study was to identify specific apoptotic molecules important for tolerance induction.

Methods: Mice expressing the human Bcl-2 molecule in T cells or Bim -/- mice were used as islet allograft or rat islet xenograft recipients and treated with CTLA4-Fc and MR1 costimulation blockade.

Local or short-term systemic costimulatory molecule blockade prolongs rat corneal allograft survival.

Background: Costimulatory molecule blockade with antibody-based immunosuppressive agents has been shown to prolong the survival of many types of allograft. The effects were evaluated of local costimulatory molecule blockade with different CTLA4-Ig constructs and of systemic, short-term treatment with an anti-CD28 monoclonal antibody on orthotopic corneal allograft survival in the rat.

Methods: Adult Fischer-344 rats underwent Wistar-Furth orthotopic corneal grafts.

Fate of alphaGal +/+ pancreatic islet grafts after transplantation into alphaGal knockout mice.

Background: Important phylogenetic differences between pig and human tissues prevent xenotransplantation from becoming a clinically feasible option. Humans lack the galactose-alpha1,3-galactose (alphaGal) epitope on endothelial cell surfaces and therefore have preformed anti-alphaGal antibodies. The role of these antibodies in rejection of non-vascular xenografts remains controversial.

T cell-activated macrophages are capable of both recognition and rejection of pancreatic islet xenografts.

Macrophages have been proposed as the major effector cell in T cell-mediated xenograft rejection. To determine their role in this response, NOD-SCID mice were transplanted with fetal pig pancreas (FPP) before reconstitution with CD4(+) T cells from BALB/c mice. Twelve days after CD4(+) T cell reconstitution, purified macrophages (depleted of T cells) were isolated from CD4(+) T cell-reconstituted FPP recipient mice and adoptively transferred to their nonreconstituted counterparts.