Dominant-negative mechanism of leukemogenic PAX5 fusions

PAX5 encodes a master regulator of B-cell development. It fuses to other genes associated with acute lymphoblastoid leukemia (ALL). These fusion products are potent dominant-negative (DN) inhibitors of wild-type PAX5, resulting in a blockade of B-cell differentiation. Here, we show that multimerization of PAX5 DNA-binding domain (DBD) is necessary and sufficient to cause extremely stable chromatin binding and DN activity. ALL-associated PAX5-C20S results from fusion of the N-terminal region of PAX5, including its paired DBD, to the C-terminus of C20orf112, a protein of unknown function. We report that PAX5-C20S is a tetramer, which interacts extraordinarily stably with chromatin as determined by Fluorescence Recovery After Photobleaching in living cells. Tetramerization, stable chromatin binding and DN activity all require a putative five-turn amphipathic α-helix at the C-terminus of C20orf112, and does not require potential corepressor binding peptides elsewhere in the sequence. In vitro, the monomeric PAX5 DBD and PAX5-C20S binds a PAX5-binding site with equal affinity when it is at the center of an oligonucleotide too short to bind to more than one PAX5 DBD. But, PAX5-C20S binds the same sequence with 10-fold higher affinity than the monomeric PAX5 DBD when it is in a long DNA molecule. We suggest that the increased affinity results from interactions of one or more of the additional DBDs with neighboring non-specific sites in a long DNA molecule, and that this can account for the increased stability of PAX5-C20S chromatin binding compared with wild-type PAX5, resulting in DN activity by competition for binding to PAX5-target sites. Consistent with this model, the ALL-associated PAX5 fused to ETV6 or the multimerization domain of ETV6 SAM results in stable chromatin binding and DN activity. In addition, PAX5 DBD fused to artificial dimerization, trimerization and tetramerization domains results in parallel increases in the stability of chromatin binding and DN activity. Our studies suggest that oncogenic fusion proteins that retain the DBD of the transcription factor (TF) and the multimerization sequence of the partner protein can act in a DN manner by multimerizing and binding avidly to gene targets, preventing the normal TF from binding and inducing expression of its target genes. Inhibition of this multimeriztion may provide a novel therapeutic approach for cancers with this or similar fusion proteins

Sequential binding and sensing of Zn(II) by Bacillus subtilis Zur

Bacillus subtilis Zur (BsZur) represses high-affinity zinc-uptake systems and alternative ribosomal proteins in response to zinc replete conditions. Sequence alignments and structural studies of related Fur family proteins suggest that BsZur may contain three zinc-binding sites (sites 1–3). Mutational analyses confirm the essential structural role of site 1, while mutants affected in sites 2 and 3 retain partial repressor function. Purified BsZur binds a maximum of two Zn(II) per monomer at site 1 and site 2. Site 3 residues are important for dimerization, but do not directly bind Zn(II). Analyses of metal-binding affinities reveals negative cooperativity between the two site 2 binding events in each dimer. DNA-binding studies indicate that BsZur is sequentially activated from an inactive dimer (Zur2:Zn2) to a partially active asymmetric dimer (Zur2:Zn3), and finally to the fully zinc-loaded active form (Zur2:Zn4). BsZur with a C84S mutation in site 2 forms a Zur2:Zn3 form with normal metal- and DNA-binding affinities but is impaired in formation of the Zur2:Zn4 high affinity DNA-binding state. This mutant retains partial repressor activity in vivo, thereby supporting a model in which stepwise activation by zinc serves to broaden the physiological response to a wider range of metal concentrations

Deinococcus geothermalis: The Pool of Extreme Radiation Resistance Genes Shrinks

Bacteria of the genus Deinococcus are extremely resistant to ionizing radiation (IR), ultraviolet light (UV) and desiccation. The mesophile Deinococcus radiodurans was the first member of this group whose genome was completely sequenced. Analysis of the genome sequence of D. radiodurans, however, failed to identify unique DNA repair systems. To further delineate the genes underlying the resistance phenotypes, we report the whole-genome sequence of a second Deinococcus species, the thermophile Deinococcus geothermalis, which at its optimal growth temperature is as resistant to IR, UV and desiccation as D. radiodurans, and a comparative analysis of the two Deinococcus genomes. Many D. radiodurans genes previously implicated in resistance, but for which no sensitive phenotype was observed upon disruption, are absent in D. geothermalis. In contrast, most D. radiodurans genes whose mutants displayed a radiation-sensitive phenotype in D. radiodurans are conserved in D. geothermalis. Supporting the existence of a Deinococcus radiation response regulon, a common palindromic DNA motif was identified in a conserved set of genes associated with resistance, and a dedicated transcriptional regulator was predicted. We present the case that these two species evolved essentially the same diverse set of gene families, and that the extreme stress-resistance phenotypes of the Deinococcus lineage emerged progressively by amassing cell-cleaning systems from different sources, but not by acquisition of novel DNA repair systems. Our reconstruction of the genomic evolution of the Deinococcus-Thermus phylum indicates that the corresponding set of enzymes proliferated mainly in the common ancestor of Deinococcus. Results of the comparative analysis weaken the arguments for a role of higher-order chromosome alignment structures in resistance; more clearly define and substantially revise downward the number of uncharacterized genes that might participate in DNA repair and contribute to resistance; and strengthen the case for a role in survival of systems involved in manganese and iron homeostasis

Malignant fibrous histiocytomaof the larynx after radiotherapy for squamous cell carcinoma

A few cases of malignant fibrous histiocytoma (MFH) of the larynx have been reported to date. All ages may be affected, but the tumor is more prevalent in the sixth and seventh decade of life. We describe a case of MFH in a 71-year-old Italian man who 8 years before underwent a right cordectomy and radiotherapy for squamous cell carcinoma. Recurrent tumor was found to be MFH. The clinico-pathological features of this tumor are presented and the possible relationship between radiotherapy and MFH discussed. The neoplasm was characterized by spindle-shaped atypical cells arranged in a diffuse storiform pattern. Mitoses were prominent, numerous, and often atypical. Immunohistochemically, neoplastic cells were strongly positive for vimentin and alpha1-antichymotrypsin but were negative for cytokeratins and S-100 protein. These findings confirmed the diagnosis and excluded possible sarcomatoid carcinoma, inflammatory pseudotumor, and a new carcinosarcoma. The risk of sarcoma after radiotherapy for squamous cell carcinoma in the larynx is very low when considering the frequent use of radiotherapy, but long follow-ups are required

Numerical and experimental characterization of a novel modular passive micromixer.

This paper reports a new low-cost passive microfluidic mixer design, based on a replication of identical mixing units composed of microchannels with variable curvature (clothoid) geometry. The micromixer presents a compact and modular architecture that can be easily fabricated using a simple and reliable fabrication process. The particular clothoid-based geometry enhances the mixing by inducing transversal secondary flows and recirculation effects. The role of the relevant fluid mechanics mechanisms promoting the mixing in this geometry were analysed using computational fluid dynamics (CFD) for Reynolds numbers ranging from 1 to 110. A measure of mixing potency was quantitatively evaluated by calculating mixing efficiency, while a measure of particle dispersion was assessed through the lacunarity index. The results show that the secondary flow arrangement and recirculation effects are able to provide a mixing efficiency equal to 80 % at Reynolds number above 70. In addition, the analysis of particles distribution promotes the lacunarity as powerful tool to quantify the dispersion of fluid particles and, in turn, the overall mixing. On fabricated micromixer prototypes the microscopic-Laser-Induced-Fluorescence (μLIF) technique was applied to characterize mixing. The experimental results confirmed the mixing potency of the microdevice