6585 Background: Functional screening of T-ALL cell lines for sensitivity to NOTCH inhibitors has led to the discovery of frequent NOTCH1 gain-of-function mutations in the majority of human T-ALL. Gamma secretase catalyzes the cleavage of the Notch receptor within the transmembrane domain thereby releasing the Notch intracellular domain, which translocates to the nucleus to activate transcription of target genes. Gamma secretase inhibitors can induce G0/G1 arrest, decrease cell viability, and cause apoptosis of T-ALL cell lines carrying Notch activating mutations. MK-0752 is a potent gamma secretase inhibitor in clinical development (IC50 ∼50 nM). Methods: Patients with relapsed T-ALL and other leukemias were enrolled using an accelerated dose escalation scheme with 1 patient/dose level until ≥ grade 2 toxicity, followed by 3–6 patients/level. MK-0752 was administered by once-daily oral dosing in 28 day cycles. DLT was grade 3 or 4 non-hematologic toxicity during cycle 1. Plasma pharmacokinetic (PK) profiles and Abeta40 peptide levels were measured. Results: Six adult and two pediatric patients with leukemia (seven with T-ALL and one with AML) received MK-0752 dosed at 150, 225, and 300 mg/m2. Treatment duration ranged from 2 days to 56 days before patients discontinued for disease progression or drug-related toxicity. Dose-limiting toxicity (DLT) was Grade 3/4 diarrhea at 300 mg/m2. Four of the seven T-ALL patients had Notch activating mutations. One patient with T-ALL and a Notch activating mutation treated with 150 mg/m2 (300 mg) daily achieved a 45% reduction in a mediastinal mass at the end of 28 days as best response, but subsequently progressed by 56 days. Mean PK parameters at 150, 225, and 300 mg/m2 on Day 1 were AUC0–24hr = 723, 754, 1592 μM·hr, Cmax = 55, 40, 121 μM, C24hr = 18, 28, 59 μM, and tmax = 1, 8, 9 hr. Measurements of gamma secretase inhibition showed a 24–69% decrease in plasma Abeta40 peptide levels on Day 14 compared to predose. Conclusions: MK-0752 was well-tolerated in a limited number of patients below 300 mg/m2, and further enrollment is underway to establish the MTD. Plasma concentrations of MK-0752 at all doses were sufficient to inhibit gamma secretase. Leukemia samples will be assessed for Notch inhibition. [Table: see text]
Alterations in the gene copy numbers of the proto-oncogenes HER2/neu and c-myc in primary human breast cancer investigated in 73 patients. We detected amplification of HER2/neu in 17 patient samples and amplification of c-myc in 11, while amplification of both was seen in 6 samples. There was no correlation of age, hormone receptor positivity or tumour size with amplification of either proto-oncogene. Amplification of HER2/neu was significantly correlated with the stage of the disease. HER2/neu amplification was observed in 18.5% and 38% of node-negative and node-positive patients, respectively; the association between HER2/neu amplification and advanced stage of the disease was statistically significant (p = 0.05). Since this is a prospective study, the clinical significance of oncogene amplification is not known. The relatively high frequency of HER2/neu amplification points to a functional role in human breast cancer, particularly in the progression of the disease. The method used in our study allows oncogene amplification to be studied in conjunction with hormone receptor determination and thus may be of value in large clinical trials to determine the significance of oncogene abnormalities in breast cancer.
Gill disorders have emerged in recent years as a significant problem in the production of marine-stage Atlantic salmon Salmo salar L. The multi-aetiological condition 'proliferative gill inflammation' (PGI) has been reported to cause heavy losses in western Norway, yet reports of Scottish cases of the disease have remained anecdotal. In the present study, histopathological material from a marine production site in the Scottish Highlands experiencing mortalities due to a seasonal gill disease with proliferative-type pathology was examined using light microscopy, special staining techniques and transmission electron microscopy (TEM). The microsporidian Desmozoon lepeophtherii Freeman et Sommerville, 2009 (syn. Paranucleospora theridion) was identified by staining using a Gram Twort method and TEM associated with distinctive proliferative and necrotic pathology confined to the interlamellar Malpighian cell areas of the primary filaments. Epitheliocystis was not a feature of the gill pathology observed. It is believed this is the first report of D. lepeophtherii being identified associated with pathology in a Scottish gill disease case, and supports anecdotal reports that a disease at least partly synonymous with PGI as described by Norwegian researchers is present in Scottish aquaculture.
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