Chromosomal translocations encoding fusion oncoproteins are common in hematological malignancies, sarcomas, and papillary thyroid carcinomas. A recent study of follicular thyroid carcinomas reported a novel chromosomal translocation, t(2;3)(q13;p25), that fused the thyroid-specific transcription factor PAX8 with a nuclear receptor, peroxisome proliferator-activated receptor gamma (PPAR gamma). Herein we report the detection of this putative oncoprotein in 6 of 17 (35%) follicular thyroid carcinomas as well as in 6 of 11 (55%) follicular thyroid adenomas. Concordant expression of protein was found in 91% of those tumors in which PAX8-PPAR gamma mRNA was detected by RT-PCR, whereas a further 20% of follicular tumors were positive for PPAR gamma immunohistochemistry alone. Our findings suggest that the PAX8-PPAR gamma fusion protein promotes differentiated follicular thyroid neoplasia, although it is not sufficient per se for carcinogenesis.
Methylation of the promoter region of the O ( 6 ) -methylguanine-DNA methyltransferase (MGMT) gene is known to be predictive of response to temozolomide treatment in patients with glioblastoma. Contrastingly, little is known about variation in the methylation status of the MGMT promoter after treatment or across different regions of the same tumor. About 22 samples from 10 patients who had undergone multiple resections of a glioblastoma were examined with promoter sequencing. Of these, 20 were also analyzed using Methylation Specific PCR (MSP). The methylation status of the MGMT promoter was altered in the specimens obtained pre and post treatment in 2 of 9 samples as assessed by MSP and 7 out of 10 patients as assessed by promoter sequencing. In four patients, the MGMT promoter was unmethylated at primary surgery, but displayed some methylation (32, 44, 12, and 4%) on post-treatment sampling. Alteration in MSP status from unmethylated to methylated was also observed in 2 of these 4 patients. In another patient, methylation increased from 40% on initial sampling to 68% on the second sample. The remaining two patients initially demonstrated some degree of methylation (72% and 12%); subsequent sampling showed no methylation of the MGMT promoter. To ensure variable methylation status was not due to intra-tumoral variability, three to four specimens were sampled from different regions of large glioblastomas (n = 7). Promoter sequencing revealed minimal variation in methylation in all but two sites examined. Immunohistochemistry also demonstrated minimal change in MGMT expression across the tumors. This suggests that variation in MGMT promoter methylation can occur within the same tumor after treatment, necessitating caution in clinical decision-making based on this analysis.
The protozoan parasite Toxoplasma gondii infects a wide range of vertebrate hosts and is an important opportunistic pathogen in immunocompronised humans. Although Toxoplasma is amenable to both biochemical and cellular experimental approaches, the molecular basis of its success as an intracellular parasite is poorly understood. To provide a system for molecular genetic analyses, we An alternative strategy for stable transformation is based on rescuing cells from an auxotrophic condition by introducing a metabolic gene that allows growth. The production of auxotrophs and transformation by conversion to prototrophy is widely used in bacteria and yeast and provides a wide range of independent selectable markers. In the case of an obligate intracellular parasite like Toxoplasma, it is not possible to culture cells in strictly defined medium. It has also not been possible to generate auxotrophic mutants because of the difficulty in controlling the host-cell pool of nutrients.To circumvent the difficulty presented by an obligate intracellular existence, we have adapted a strategy that takes advantage of the naturally occurring tryptophan auxotrophy in Toxoplasma. The requirement for tryptophan allows efficient inhibition of Toxoplasma growth in host cells depleted of tryptophan (16). In mammalian tissue culture cells, tryptophan auxotrophy can be complemented by expression of the Escherichia coli trpB gene, which encodes the 13 subunit of tryptophan synthase, an enzyme that catalyzes the production of tryptophan from indole and seine (17). To adapt this strategy to Toxoplasma, we constructed a plasmid containing the trpB gene flanked by Toxoplasma sequences from the single-copy SAG] gene, which encodes the major tachyzoite surface antigen p30 (18). MATERIALS AND METHODSParasite Growth. The RH strain of Toxoplasma gondii was maintained by serial, 2-day passage on monolayers of human foreskin fibroblasts (HFFs) (4-7). Parasites were harvested from freshly lysed monolayers, separated by 3.0-pim membrane filters and washed in Hanks' balanced salt solution (7 5508The publication costs of this article were defrayed in part by page charge payment. This article must therefore be hereby marked "advertisement" in accordance with 18 U.S.C. §1734 solely to indicate this fact.
Follicular thyroid carcinomas are associated with a chromosomal translocation that fuses the thyroid-specific transcription factor paired box gene 8 (PAX8) with the nuclear receptor peroxisome proliferator-activated receptor gamma (PPARgamma). This study investigated the transcriptional mechanisms by which PAX8-PPARgamma regulates follicular thyroid cells. In HeLa cells, rat follicular thyroid (FRTL-5) cells, or immortalized human thyroid cells, PAX8-PPARgamma stimulated transcription from PAX8-responsive thyroperoxidase and sodium-iodide symporter promoters in a manner at least comparable with wild-type PAX8. In contrast, PAX8-PPARgamma failed to stimulate transcription from the thyroglobulin promoter and blocked the synergistic stimulation of this promoter by wild-type PAX8 and thyroid transcription factor-1. Unexpectedly, PAX8-PPARgamma transcriptional function on a PPARgamma-responsive promoter was cell-type dependent; in HeLa cells, PAX8-PPARgamma dominantly inhibited expression of the PPARgamma-responsive promoter, whereas in FRTL-5 and immortalized human thyroid cells PAX8-PPARgamma stimulated this promoter. In gel shift analyses, PAX8-PPARgamma bound a PPARgamma-response element suggesting that its transcriptional function is mediated via direct DNA contact. A biological model of PAX8-PPARgamma function in follicular thyroid cells was generated via constitutive expression of the fusion protein in FRTL-5 cells. In this model, PAX8-PPARgamma expression was associated with enhanced growth as assessed by soft agar assays and thymidine uptake. Therefore, PAX8-PPARgamma disrupts normal transcriptional regulation by stimulating some genes and inhibiting others, the net effect of which may mediate follicular thyroid cell growth and loss of differentiation that ultimately leads to carcinogenesis.
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