Mediterranean fever gene mutations in Greek patients with Behcet's disease.

OBJECTIVE: It is known that clinical similarities between Behcet's disease and Familial Mediterranean Fever have led to the hypothesis of a common pathogenesis. Familial Mediterranean Fever is caused by MEFV gene mutations coding for pyrin. Therefore, we examined whether these pyrin mutations are also associated with Behcet's disease. METHODS: Molecular testing for pyrin mutations was performed in 96 unrelated Greek patients with an established diagnosis of Behcets disease. The results were compared with an analysis for pyrin mutations in 140 unrelated healthy Greek controls. RESULTS: We found no pyrin mutations among the Behcet cases tested; this result is comparable with the control group. CONCLUSIONS: Pyrin gene mutations in Greek patients with Behcet's disease are not more common than those in the general population. This finding is not in agreement with the findings in other populations. It is suggested that screening for pyrin mutations not be included in the evaluation of Greeks suspected to have Behcet's disease.

Mediterranean fever gene mutations in greek patients with Behcet's disease / Mutacionesen el gen de la fiebre mediterránea en pacientes griegos con la enfermedadde Behçet

OBJECTIVE: It is known that clinical similarities between Behcet's disease and Familial Mediterranean Fever have led to the hypothesis of a common pathogenesis. Familial Mediterranean Fever is caused by MEFV gene mutations coding for pyrin. Therefore, we examined whether these pyrin mutations are also associated with Behcet's disease. METHODS: Molecular testing for pyrin mutations was performed in 96 unrelated Greek patients with an established diagnosis of Behcet's disease. The results were compared with an analysis for pyrin mutations in 140 unrelated healthy Greek controls. RESULTS:We found no pyrin mutations among the Behcet cases tested; this result is comparable with the control group. CONCLUSIONS: Pyrin gene mutations in Greek patients with Behcet's disease are not more common than those in the general population. This finding is not in agreement with the findings in other populations. It is suggested that screening for pyrin mutations not be included in the evaluation of Greeks suspected to have Behcet's disease.

OBJETIVO:Se sabe que las similitudes clínicas entre la enfermedad de Behçet y la fiebre mediterránea familiar han llevado a la hipótesis de una patogénesis común. La fiebre mediterránea familiar es causada por mutaciones en el gen MEFV que codifica la pirina. Por lo tanto, examinamos si estas mutaciones de la pirina se hallan también asociadas con la enfermedad de Behçet. MÉTODOS: La prueba molecular para la detección de las mutaciones de la pirina se realizó en 96 pacientes griegos no relacionados, y diagnosticados con la enfermedad de Behçet. Los resultados se compararon con un análisis de las mutaciones de la pirina en 140 controles formados por individuos griegos saludables. RESULTADOS: No se encontraron mutaciones de pirina entre los casos de Behçet sometidos a prueba. Este resultado es comparable con el grupo control. CONCLUSIONES: Las mutaciones del gen de la pirina en los pacientes griegos con la enfermedad de Behçet no son más comunes que las de la población general. Este hallazgo no concuerda con los hallazgos en otras poblaciones. Se sugiere que el tamizaje para la detección de las mutaciones de pirina no se incluya en la evaluación de pacientes griegos sospechosos de padecer la enfermedad de Behçet.

Translocator protein (18 kDa) mediates the pro-growth effects of diazepam on Ehrlich tumor cells in vivo.

The Translocator Protein (TSPO), previously known as the peripheral-type benzodiazepine receptor, is a ubiquitous drug- and cholesterol-binding protein that is up regulated in several types of cancer cells. TSPO drug ligands (e.g., diazepam) induce or inhibit tumor cell proliferation, depending on the dose and tissue origin. We have previously shown that TSPO is expressed in Ehrlich tumor cells and that diazepam increases proliferation of these cells in vitro. Here, we investigated the in vivo effects of diazepam on Ehrlich tumor growth and the role of TSPO in mediating this process. Oral administration of diazepam to mice (3.0mg/kg/day for 7 days) produced plasma and ascitic fluid drug concentrations of 83.83 and 54.12 nM, respectively. Diazepam increased Ehrlich tumor growth, likely due to its ability to increase tumor cell proliferation and Reactive Oxygen Species production. Radioligand binding assays and nucleotide sequencing revealed that Ehrlich tumor cell TSPO had the same pharmacological and biochemical properties as TSPO described in other tumor cells. The estimated K(d) for PK 11195 in Ehrlich tumor cells was 0.44 nM and 8.70 nM (low and high binding site, respectively). Structurally diverse TSPO drug ligands with exclusive affinity for TSPO (i.e., 4-chlordiazepam, Ro5-4864, and isoquinoline-carboxamide PK 11195) also increased Ehrlich tumor growth. However, clonazepam, a GABA(A)-specific ligand with no affinity for TSPO, failed to do so. Taken together, these data suggest that diazepam induces in vivo Ehrlich tumor growth in a TSPO-dependent manner.