Ligands of the NKG2D receptor, which activates NK cells and costimulates effector T cells, are inducibly expressed under harmful conditions, such as malignancies and microbial infections. Moreover, aberrant expression in autoimmune disease lesions may contribute to disease progression. Among these ligands are the closely related human MHC class I-related chains (MIC) A and B, which appear to be regulated by cellular stress. Analyses of MIC gene 5′-end flanking regions in epithelial tumor cells defined minimal core promoters that directed near maximum heat shock- or oxidative stress-induced transcriptional activation. Considerably larger fully functional promoters were required for maximum proliferation-associated activation. These activities were dependent on core promoter sequences that included heat shock elements, which inducibly bound heat shock factor 1, TATA-like elements, and constitutively occupied Sp1 and inverted CCAAT box factor sites. By contrast, MIC gene activation by CMV infection was largely independent of these and upstream promoter sequences, and expression of viral immediate early gene (IE1 or IE2) products was sufficient for induction of transcription and surface protein expression. Altogether, these results reveal distinct modes of activation of the genes for the MIC ligands of NKG2D and provide a molecular framework for analyses of gene regulation under different cellular insult conditions.
The skin is commonly affected in thyroid diseases, but the mechanism for this association is still unclear. As the skin expresses numerous neuroendocrine elements, we tested the additional cutaneous expression of mediators operating in the hypothalamic-pituitary-thyroid axis. We found significant expression of the thyroid-stimulating hormone receptor mRNA in cultured keratinocytes, epidermal melanocytes, and melanoma cells. The presence of thyroid-stimulating hormone receptor was confirmed by northern analyses and the thyroid-stimulating hormone receptor was found to be functionally active in cyclic adenosine monophosphate signal assays. Thyroid-stimulating hormone receptor expressing cells also expressed the sodium iodide symporter and thyroglobulin genes. We also found expression of deiodinases 2 and 3 (mainly deiodinase 2) in whole skin biopsy specimens, and in the majority of epidermal and dermal cells by reverse transcription-polymerase chain reaction followed by sequencing of the amplified gene segments. There was selective expression of the gene for thyroid-stimulating hormone beta; detection of the thyroid-releasing hormone gene was minimal and thyroid-releasing hormone receptor mRNA was not detected in most of the samples. Expression of functional thyroid-stimulating hormone receptor in the skin may have significant physiologic and pathologic consequences, particularly in autoimmune conditions associated with production of stimulating antibodies against the thyroid-stimulating hormone receptor. We conclude that the expanding list of neuroendocrine elements expressed in the skin supports a strong role for this system in cutaneous biology.
Stable mixed hematopoietic chimerism has been consistently established in dogs mildly immunosuppressed by 200 cGy of total body irradiation (TBI) before and given a brief course of immunosuppression with mycophenolate mofetil (28 days) and cyclosporine (35 days) after dog leukocyte antigen (DLA)-identical marrow transplantation. However, when TBI was reduced from 200 to 100 cGy, grafts were nearly uniformly rejected within 3 to 12 weeks. Here we asked whether stable engraftment could be accomplished after a suboptimal dose of 100 cGy TBI with host immunosuppression enhanced by donor-derived mesenchymal stromal cells (MSC) given after transplantation. MSC were cultured from marrow cells and evaluated in vitro for antigen expression. They showed profound immunosuppressive properties in mixed leukocyte reactions (MLR) in a cell dose-dependent manner not restricted by DLA. MSC and lymphocyte contact was not required, indicating immunosuppression was mediated by soluble factors. Prostaglandin E2 was increased in culture supernatant when MSC were co-cultured in MLR. Adding indomethacin restored lymphocyte proliferation in cultures containing MSC. MSC expressed CD10, CD13, CD29, CD44, CD73/SH-3, CD90/Thy-1, and CD106/VCAM-1. For in vivo studies, MSC were injected on the day of marrow grafting and on day 35, the day of discontinuation of postgrafting cyclosporine. MSC derived from the respective marrow donors failed to avert marrow graft rejection in 4 dogs given DLA-identical grafts after nonmyeloablative conditioning with 100 cGy in a time course not significantly different from control dogs not given MSC. While MSC displayed in vitro characteristics similar to those reported for MSC from other species, their immunosuppressive qualities failed to sustain stable marrow engraftment in vivo in this canine model.
Development of preclinical dog models of solid organ and hematopoietic transplantation is critically dependent upon characterization of the polymorphic major histocompatibility complex class I and class II loci. While the class II alleles are easily typed as the polymorphic positions reside on a single exon, typing the class I locus is tedious. We have improved the class I typing method by designing improved primers and adopting alternative DNA amplification and cloning reagents that circumvent the use of radioactivity and the need for the single-stranded conformation polymorphism gels. The method is reliable in typing dogs for the class I dog leukocyte antigen (DLA)-88 locus, and through its use, we describe here two new alleles DLA-88*01101 and DLA-88*01201.
Anaplastic thyroid carcinoma (ATC) is a fatal malignancy the clinical outcome of which is unaltered by current therapeutic modalities. A recent phase 1 clinical trial of combretastatin A4 phosphate (CA4P) produced a long-lasting total remission in a patient with ATC. CA4P is a tubulin-binding agent derived from the African bush willow, Combretum caffrum, which possesses tumor vascular-targeting activity. In order to discriminate primary antineoplastic effects from tumor antivascular activity, we evaluated CA4P cytotoxicity in eight human ATC cell lines and compared it to paclitaxel, another tubulin-binding agent with significant clinical activity. CA4P displayed significant cytotoxicity against the ATC cell lines, comparable to that of paclitaxel, and these effects were longer lasting in two cell lines compared to the duration of paclitaxel. We further investigated the effects of CA4P on xenograft tumors from four ATC cell lines injected in athymic nude mice. Significantly lower tumor weights were observed in animals treated with CA4P compared to those treated with vehicle alone. Continuous monitoring of xenograft tumor volumes from one of the ATC cell lines also revealed a significantly lower rate of tumor growth in the CA4P-treated mice compared to those receiving vehicle alone. These results suggest that antitumoral effects of CA4P can be consequent to a combination of primary antineoplastic effects as well as the potential destruction of tumor vasculature.
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