Elisa Sala

BRAF silencing by short hairpin RNA or chemical blockade by PLX4032 leads to different responses in melanoma and thyroid carcinoma cells

BRAF-activating mutations have been reported in several types of cancer, including melanoma (∼70% of cases), thyroid (30-70%), ovarian (15-30%), and colorectal cancer (5-20%). Mutant BRAF has constitutive kinase activity and causes hyperactivation of the mitogen-activated protein kinase pathway. BRAF silencing induces regression of melanoma xenografts, indicating the essential role of BRAF for cell survival. We set up an inducible short hairpin RNA system to compare the role of oncogenic BRAF in thyroid carcinoma versus melanoma cells. Although BRAF knockdown led to apoptosis in the melanoma cell line A375, the anaplastic thyroid carcinoma cell ARO underwent growth arrest upon silencing, with little or no cell death. Reexpression of the thyroid differentiation marker, sodium iodide symporter, was induced after long-term silencing. The different outcome of BRAF down-regulation in the two cell lines was associated with an opposite regulation of p21CIP1/WAF1 expression levels in response to the block of the BRAF mitogenic signal. These results were confirmed using a specific BRAF small-molecule inhibitor, PLX4032. Restoration of p21CIP1/WAF1 expression rescued melanoma cells from death. Altogether, our data indicate that oncogenic BRAF inhibition can have a different effect on cell fate depending on the cellular type. Furthermore, we suggest that a BRAF-independent mechanism of cell survival exists in anaplastic thyroid cancer cells. (Mol Cancer Res 2008;6(5):751–9)

Sorafenib functions to potently suppress RET tyrosine kinase activity by direct enzymatic inhibition and promoting RET lysosomal degradation independent of proteasomal targeting

Germ line missense mutations in the RET (rearranged during transfection) oncogene are the cause of multiple endocrine neoplasia, type 2 (MEN2), but at present surgery is the only treatment available for MEN2 patients. In this study, the ability of Sorafenib (BAY 43-9006) to act as a RET inhibitor was investigated. Sorafenib inhibited the activity of purified recombinant kinase domain of wild type RET and RETV804M with IC50 values of 5.9 and 7.9 nm, respectively. Interestingly, these values were 6–7-fold lower than the IC50 for the inhibition of B-RAFV600E. In cell-based assays, Sorafenib inhibited the kinase activity and signaling of wild type and oncogenic RET in MEN2 tumor and established cell lines at a concentration between 15 and 150 nm. In contrast, inhibition of oncogenic B-RAF- or epidermal growth factor-induced ERK1/2 phosphorylation required micromolar concentrations of Sorafenib demonstrating the high specificity of this drug in targeting RET. Moreover, prolonged exposure to Sorafenib resulted in inhibition of cell proliferation and RET protein degradation. Using lysosomal and proteasomal inhibitors, we demonstrate that Sorafenib induces RET lysosomal degradation independent of proteasomal targeting. Furthermore, we provide a structural model of the Sorafenib·RET complex in which Sorafenib binds to and induces the DFGout conformation of the RET kinase domain. These results strengthen the argument that Sorafenib may be effective in the treatment of MEN2 patients. In addition, because inhibition of RET is not impaired by mutation of the Val804 gatekeeper residue, MEN2 tumors may be less susceptible to acquired Sorafenib resistance.

Thyrotropin-secreting pituitary adenomas: Outcome of pituitary surgery and irradiation

OBJECTIVE Our objective was to describe the effects of surgery and radiotherapy on hormonal control and tumor mass in short- and long-term follow-up of TSH-secreting pituitary adenomas (TSHomas). METHODS This was a retrospective multicenter study. RESULTS We collected data of 70 TSHomas (70% macroadenomas). The mean follow-up was 64.4 (range 3-324) months. Overall, 97% of patients were treated with surgery; in 27% of them radiotherapy was associated. After surgery, 75% of patients normalized thyroid function, 58% normalized both pituitary imaging and hormonal profile, 9% developed pituitary deficiencies, and 3% had tumor or hormonal recurrence, all within the first 2 years after surgery. Presurgical medical treatment did not significantly improve surgical outcome (63% vs 57%). Radiotherapy controlled hypersecretion in 37% of patients within 2 years, whereas 32% of patients developed new pituitary deficiencies from 18 to 96 months from treatment. At last follow-up, 80% of patients normalized thyroid function, whereas 20% were currently on medical treatment: 85% with somatostatin analog (SSA) alone and 15% with SSA combined with methimazole. Subjects who achieved disease control had surgery as the only treatment in 80% of cases and surgery combined with irradiation in 20%. CONCLUSIONS Surgery remains the first-choice treatment for TSHoma. If surgery is successful, recurrence is rare. When surgery is unsuccessful or contraindicated, SSA and radiotherapy are effective in controlling hyperthyroidism and tumor growth in the majority of patients. The effects of radiotherapy on TSH secretion and tumor mass are greater within the first years after treatment, whereas pituitary deficiencies may occur several years later.

Droplet digital polymerase chain reaction for DNMT3A and IDH1/2 mutations to improve early detection of acute myeloid leukemia relapse after allogeneic hematopoietic stem cell transplantation.

Over the last decades, allogeneic hematopoietic stem cell transplantation (allo-HSCT) has considerably improved the outcome of acute myeloid leukemia (AML). Unfortunately, disease relapse remains a frequent occurrence, and a major cause of post-transplant mortality.[1][1] Most salvage treatments do

Oncogenic Fusion Tyrosine Kinases as Molecular Targets for Anti-Cancer Therapy

Deregulated activation of protein tyrosine kinases (PTKs) is a frequent event underlying malignant transformation in many types of cancer. The formation of oncogenic fusion tyrosine kinases (FTKs) resulting from genomic rearrangements, represents a common mechanism by which kinases escape the strict controls that normally regulate their expression and activation. FTKs are typically composed of an N-terminal dimerisation domain, provided by the fusion partner protein, fused to the kinase domain of receptor or non-receptor tyrosine kinases (non-RTKs). Since FTKs do not contain extracellular domains, they share many characteristics with non-RTKs in terms of their properties and approaches for therapeutic targeting. FTKs are cytoplasmic or sometimes nuclear proteins, depending on the normal distribution of their fusion partner. FTKs no longer respond to ligand and are instead constitutively activated by dimerisation induced by the fusion partner. Unlike RTKs, FTKs cannot be targeted by therapeutic antibodies, instead they require agents that can cross the cell membrane as with non-RTKs. Here we review the PTKs known to be expressed as FTKs in cancer and the strategies for molecularly targeting these FTKs in anti-cancer therapy.

Screening optimized protein purification protocols by coupling small-scale expression and mini-size exclusion chromatography.

Testing several different growth and purification conditions by means of a small-scale screening is a valuable approach for identifying optimal protocols for large preparative protein productions. The availability of new mini columns for size exclusion chromatography (SEC) enables the coupling of parallel affinity purification using magnetic beads with the aggregation analysis performed by gel-filtration. Only 35 μL of bead eluate are sufficient to run both experiments and each SEC cycle needs no more than 30 min, washing and equilibration inclusive. We have shown that SEC ideally completes the SDS-PAGE analysis since it allows estimating the amount of soluble aggregates recovered in the elution fraction after affinity purification, although larger aggregates seem to be lost in the pre-column filters. SEC is also useful to identify low molecular mass contaminants that can be underestimated as they migrate together with the front of the acrylamide gel.

Wilms' tumor gene 1 transcript levels in leukapheresis of peripheral blood hematopoietic cells predict relapse risk in patients autografted for acute myeloid leukemia.

Autologous hematopoietic stem cell transplantation (ASCT) is a curative option alternative to allogeneic transplantation for patients with acute myeloid leukemia (AML). Relapse after ASCT can be due to contamination with leukemic blasts of autologous peripheral blood stem cells (PBSCs) collected by leukapheresis (LK). Identification and quantification of a minimal residual disease (MRD) marker in PBSCs could be relevant in determining the relapse risk after ASCT. High levels of the WT1 gene transcript in bone marrow of AML patients after treatment completion predict disease relapse. We evaluated WT1 transcript levels in autologous PBSC from LK used for ASCT in 30 consecutive AML patients in complete remission (CR) and established a correlation with clinical outcome. At diagnosis, all patients had WT1 overexpression. All patients were in morphological and genetic CR at the time of PBSC collection and before ASCT. Real-time quantitative PCR of WT1 was performed in samples of each LK, using TaqMan technology on RNA from mononucleated cells. The median WT1 transcript level in the PBSC graft (WT1-LK) of patients who relapsed was significantly higher than of those who did not relapse after transplantation (P <.0001). We defined a cut-off level of 80 WT1-LK copies/ABL 10e4 copies to discriminate between positive and negative PBSC grafts. The cut-off level was strongly associated with disease recurrence, DFS and OS. Our study represents the largest series of patients evaluating WT1 as a marker of MRD in PBSC LK products using a completely standardized real-time WT1-reverse transcriptase-PCR based assay. These data, if confirmed by prospective study, will help to determine an individual patients adapted postremission allocation strategy.

Hypothalamic-Pituitary Axis in Non-Functioning Pituitary Adenomas: Focus on the Prevalence of Isolated Central Hypoadrenalism

Introduction: Non-functioning pituitary adenomas (NFPA) account for about 40% of pituitary tumors. Pituitary deficiencies are present at diagnosis in 60-80% of NFPA, and, classically, growth hormone (GH) secretion is lost first, while adrenocorticotropic hormone is expected to disappear last. The aim of this study was to evaluate the incidence of multiple or isolated pituitary deficiencies in a large series of NFPA. Materials and Methods: We retrospectively analyzed data on 218 NFPA cases (59% females, 59% with macroadenomas, average age: 50.2 ± 17 years) followed up at our center from 1990 to 2013. At diagnosis all patients had a complete evaluation of pituitary function in basal conditions and provocative tests for the hypothalamic-pituitary-adrenal axis, while tests for GH deficiency (GHD) were carried out in 38%. Results: 52.3% of patients (65.6% of macroadenomas, 33.3% of microadenomas) presented at least 1 pituitary deficiency: isolated deficiency in 29.8%, multiple deficiencies in 30% and panhypopituitarism in 9%. Isolated deficiencies were hypogonadism in 11.5% of patients (8% in micro-, 14% in macroadenomas), hypoadrenalism in 10.1% (14% in micro-, 7% in macroadenomas) and GHD in 8.3% (8.9% in micro-, 7.8% in macroadenomas). About 30% of microadenomas had at least 1 pituitary deficiency at diagnosis, independently of tumor localization within the sellar region. Conclusions: The presence of isolated hypoadrenalism suggests that the order of appearance of hypopituitarism does not always follow the one expected. Given the relatively high prevalence of isolated hypoadrenalism even in microadenomas, we suggest a full assessment of basal and dynamic pituitary function in all NFPA regardless of tumor size.

Growth hormone-releasing hormone-producing pancreatic neuroendocrine tumor in a multiple endocrine neoplasia type 1 family with an uncommon phenotype.

The objective of this study was to describe a multiple endocrine neoplasia type 1 (MEN1) family characterized by primary hyperparathyroidism, in association with acromegaly because of ectopic growth hormone-releasing hormone (GHRH) secretion by a pancreatic neuroendocrine tumor in a young man and with a bronchial carcinoid in his mother. We investigate the clinical, radiological imaging, histopathologic findings, and therapy. An 18-year-old man successfully underwent subtotal parathyroidectomy for primary hyperparathyroidism. A subsequent genetic analysis showed a MEN1 gene mutation. Three years later, acromegaly because of ectopic GHRH secretion was diagnosed (pituitary MRI negative and elevated GHRH levels). A search for an ectopic tumor was unsuccessful and somatostatin analog therapy was started. Successively, scintigraphy with somatostatin analogs (68-Ga-DOTATOC-PET) showed three focal areas in the pancreatic tail. Distal pancreatectomy showed multiple pancreatic neuroendocrine tumors and hormonal status was normalized. Afterwards, the evaluation of the patient’s mother, carrying the same mutation, indicated a primary hyperparathyroidism and a 4 cm lung mass. The patient underwent subtotal pneumonectomy and the histological analysis was consistent with the diagnosis of a typical bronchial carcinoid. In conclusion, an atypical phenotype may be recorded in MEN1 families, thus emphasizing the importance of the new imaging and surgical techniques in the diagnosis and treatment of such a rare disease.

Characterization of compound 584, an Abl kinase inhibitor with lasting effects

Secondary resistance to imatinib is observed in patients with chronic myeloid leukemia. This study describes a novel Abl kinase inhibitor with long-lasting effects. Background Resistance to imatinib is an important clinical issue in the treatment of Philadelphia chromosome-positive leukemias which is being tackled by the development of new, more potent drugs, such as the dual Src/Abl tyrosine kinase inhibitors dasatinib and bosutinib and the imatinib analog nilotinib. In the current study we describe the design, synthesis and biological properties of an imatinib analog with a chlorine-substituted benzamide, namely compound 584 (cmp-584). Design and Methods To increase the potency, we rationally designed cmp-584, a compound with enhanced shape complementarity with the kinase domain of Abl. cmp-584 was synthesized and characterized in vitro against a panel of 67 serine/threonine and tyrosine kinases using radioactive and enzyme-linked immunosorbent kinase assays. We studied inhibitory cellular activity using Bcr/Abl-positive human cell lines, murine transfectants in proliferation experiments, and a murine xenotrans-planted model. Kinase assays on isolated Bcr/Abl protein were also performed. Finally, we used a wash-out approach on whole cells to study the binding kinetics of the inhibitor. Results cmp-584 showed potent anti-Abl activity both on recombinant protein (IC50: 8 nM) and in cell-based assays (IC50: 0.1–10 nM). The drug maintained inhibitory activity against platelet-derived growth factor receptors and c-KIT and was also active against Lyn (IC50: 301 nM). No other kinase of the panel was inhibited at nanomolar doses. cmp-584 was 20- to 300-fold more active than imatinib in cells. This superior activity was evident in intact cells, in which full-length Bcr-Abl is present. In vivo experiments confirmed the activity of cmp-584. Wash-out experiments showed that short exposure to the drug impaired cell proliferation and Bcr-Abl phosphorylation for a substantially longer period of time than imatinib. Conclusions The present results suggest a slower off-rate (dissociation rate) of cmp-584 compared to imatinib as an explanation for the increased cellular activity of the former.