Biochemical assay-based selectivity profiling of clinically relevant kinase inhibitors on mutant forms of EGF receptor

Gefitinib and erlotinib are potent EGFR tyrosine kinase inhibitors (potentially) useful for the treatment of non-small-cell lung cancer (NSCLC). Clinical responses, however, in NSCLC patients have been linked to the presence of certain activating mutations of EGFR. We used an ELISA-based biochemical assay to confirm the selective inhibitory efficacy of gefitinib and erlotinib on the activated mutant receptor. Our results are in line with the clinical observations providing evidence for the predictive power of the kinase assay. Four additional compounds were also investigated: CI-1033 and EKB-569 had dramatic inhibitory effects on all EGFR forms, whereas PD153035 and AG1478 were active on wild-type and activating mutant protein. In docking simulations with wild-type EGFR, our inhibitory data are in good agreement with the binding scores. These data confirm that anilinoquinazolines are good starting structures for the next generation of selective drugs against mutant EGFR, whereas CI-1033 and EKB-569 may represent advances for patients with both wild-type and anilinoquinazoline-resistant mutant tumors.     

Functional validation of hydrophobic adaptation to physiological temperature in the small heat shock protein αA-crystallin

Small heat shock proteins (sHsps) maintain cellular homeostasis by preventing stress and disease-induced protein aggregation. While it is known that hydrophobicity impacts the ability of sHsps to bind aggregation-prone denaturing proteins, the complex quaternary structure of globular sHsps has made understanding the significance of specific changes in hydrophobicity difficult. Here we used recombinant protein of the lenticular sHsp α A-crystallin from six teleost fishes environmentally adapted to temperatures ranging from -2°C to 40°C to identify correlations between physiological temperature, protein stability and chaperone-like activity. Using sequence and structural modeling analysis we identified specific amino acid differences between the warm adapted zebrafish and cold adapted Antarctic toothfish that could contribute to these correlations and validated the functional consequences of three specific hydrophobicity-altering amino acid substitutions in αA-crystallin. Site directed mutagenesis of three residues in the zebrafish (V62T, C143S, T147V) confirmed that each impacts either protein stability or chaperone-like activity or both, with the V62T substitution having the greatest impact. Our results indicate a role for changing hydrophobicity in the thermal adaptation of α A-crystallin and suggest ways to produce sHsp variants with altered chaperone-like activity. These data also demonstrate that a comparative approach can provide new information about sHsp function and evolution.     

Functional Organization of the Inverted Repeats of IS30

The mobile element IS30 has 26-bp imperfect terminal inverted repeats (IRs) that are indispensable for transposition. We have analyzed the effects of IR mutations on both major transposition steps, the circle formation and integration of the abutted ends, characteristic for IS30. Several mutants show strikingly different phenotypes if the mutations are present at one or both ends and differentially influence the transposition steps. The two IRs are equivalent in the recombination reactions and contain several functional regions. We have determined that positions 20 to 26 are responsible for binding of the N-terminal domain of the transposase and the formation of a correct 2-bp spacer between the abutted ends. However, integration is efficient without this region, suggesting that a second binding site for the transposase may exist, possibly within the region from 4 to 11 bp. Several mutations at this part of the IRs, which are highly conserved in the IS30 family, considerably affected both major transposition steps. In addition, positions 16 and 17 seem to be responsible for distinguishing the IRs of related insertion sequences by providing specificity for the transposase to recognize its cognate ends. Finally, we show both in vivo and in vitro that position 3 has a determining role in the donor function of the ends, especially in DNA cleavage adjacent to the IRs. Taken together, the present work provides evidence for a more complex organization of the IS30 IRs than was previously suggested.Mobile DNA elements have been described in most organisms and represent a considerable proportion of their genetic material. These elements play an important role in the evolution of the host genome due to their capacities to generate DNA rearrangements and influence the expression of neighboring genes. Their ability to form compound transposons contributes to the sequestering and dispersion of accessory genes, such as those specifying resistance to antibiotics, virulence, and various catabolic activities. The simplest mobile elements are the bacterial insertion sequences (ISs), which typically harbor one or two open reading frames (ORF) coding for the transposase (Tpase). More than 2,400 ISs have been described and classified into families (IS Finder, http://www-is.biotoul.fr/) on the basis of similarities in their genetic organization and Tpases (30). The terminal inverted repeats (IRs) are essential for the transposition of most ISs. The IRs, together with the Tpase, form a complex where the cleavage and strand transfer reactions occur. The IRs generally contain two functional modules: the internal region serves as the binding site of Tpase, while the terminal part is required for DNA cleavage and the strand transfer process (2). Besides these principal cis-acting elements, some ISs carry additional regulatory DNA sequences in the IRs or in the subterminal regions (18).The IS30 family currently comprises more than 80 elements distributed throughout the Gram-positive and Gram-negative bacteria and the Archaea (IS Finder, http://www-is.biotoul.fr). IS30 (1, 5), the founding element of the family, is 1,221 bp long and has 26-bp imperfect IRs (the left end of the IR [IRL] and the right end of the IR [IRR]; Fig. ​Fig.1A)1A) and one ORF with a coding capacity for a 44.3-kDa Tpase. The element has a preference for two distinct types of target sequences: the natural hot spots (HSs), characterized by a 24-bp symmetric consensus (23), and the IRs of the element itself (21, 22). Potential helix-turn-helix motifs (HTH) responsible for HS and IR targeting are located in the N-terminal region of the Tpase (19). While the first motif, HTH1, is required only for transposition into the HS sequences, the conserved H-HTH2 motif is essential for both IR and HS targeting (15, 19).Open in a separate windowFIG. 1.Transposition assays for comparing the IS30-based transposons composed of simple IRs. (A) Comparison of the IS30 IR sequences. Dots indicate matching bases. (B) Schematic representation of the intermolecular transposition pathway. The graph shows the two major steps characteristic for IS30 transposition (steps 1 and 2). The transposon donor plasmid and its derivative, the circular transposon (thin line), carry the 26-bp IRs of IS30 (boxes with open and filled triangles representing IRL and IRR, respectively). The Cm^r gene flanking the transposon in the donor plasmid is shown as a gray box. The target plasmid (dotted line) carries the GOHS hot spot sequence (cross-hatched box). (C) Transposition frequencies of IS30-based transposons with different combinations of the IRs. The graph shows the overall frequency of transposition into the hot spot (steps 1 and 2) and the frequency of the major steps assayed separately. Data were obtained from at least three parallel experiments.IS30 transposition occurs through two major steps (14, 24) (Fig. ​(Fig.1B).1B). The first is the formation of an active intermediate by joining of the IRs. This process involves the Tpase-catalyzed cleavage of one strand at the 3′ IS end, which then attacks the same strand 2 bp outside the other IR. This strand transfer generates a single-strand bridge between the ends and leads to a figure-eight structure (33). This active transposition intermediate carrying the joined IRs probably proceeds via replicative resolution, as described for IS911 (11, 25) and IS2 (16). The resolution can lead to the circularization of a single IS or to the formation of a head-to-tail repeat of two IS30 copies. In the second step of transposition, the active forms interact with the target DNA, resulting in the known transposition products: simple insertion, deletion, inversion, or replicon fusion (14, 24).In this work, we describe the modularity of the IR ends of IS30 by analyzing several mutants. According to our results, the IS30 IRs can be divided into functional regions that are differently involved in the main transposition steps. We show that positions 2 and 3 play a pivotal role in cleavage of the ends and, consequently, in their donor function. While the terminal part (1 to 17 bp) of the IRs is indispensable for both major steps, the internal region, i.e., the binding site for the N-terminal part of Tpase (20 to 26 bp), appears to be required only for the junction formation. Although the exact role of the terminal part of IRs is less clear, several mutations in this region considerably affected both the junction formation and integration. The fact that the internal IR region is not involved in the integration suggests that the Tpase binds to other sequences during this reaction.     

Prognostic impact of B-cell density in cutaneous melanoma

Studies on the prognostic importance of tumor-infiltrating lymphocytes have mainly focused on T cells, while little is known about the role of tumor-infiltrating B lymphocytes. We investigated the prevalence of CD20⁺ B cells by immunohistochemistry in primary melanoma samples of 106 patients and analyzed in relation to clinicopathological parameters and patients’ survival. The majority of samples contained a significant amount of B lymphocytes, predominantly dispersed in the stroma surrounding tumor deposits (mean peritumoral and intratumoral densities: 178.7 ± 156.1 vs. 4.9 ± 6.9 cells/mm², respectively). B cells organized in follicle-like aggregates were also observed in 26% of the samples. B-cell density correlated with that of activated (CD25⁺ or OX40⁺) T lymphocytes. Infiltration by CD20⁺ lymphocytes did not correlate with tumor thickness, while the presence of B-cell aggregates was observed more frequently in thick melanomas. On the other hand, B-cell infiltration was more pronounced in nonmetastatic or lymph node metastatic tumors, compared to visceral metastatic ones. Accordingly, high number of these cells provided significant survival advantage (P = 0.0391 and P = 0.0136 for intra- and peritumoral infiltration, respectively). Furthermore, combination of peritumoral B-cell density with the number of activated T lymphocytes identified patient subgroups with different disease outcome, which was most favorable in the case of high density, while very poor in the case of low density of both cell types. Multivariate survival analysis identified tumor thickness and CD20⁺/OX40⁺ cell density combination as significant independent prognostic factors. Taken together, our results show correlation between low number of CD20⁺ B lymphocytes and melanoma progression, indicating a possible role of tumor-infiltrating B cells in antitumoral immune response. It was also reflected in better outcome of the disease since the density of B lymphocytes alone as well as in combination with that of activated T cells proved of prognostic importance in patients with malignant melanoma.     

Development and characterization of a FIA system for selective assay of l-ascorbic acid in food samples

An amperometric detector and an enzymatic reaction were combined for the measurement of l-ascorbic acid. The enzyme cell (containing immobilized ascorbate oxidase) was connected to a flow injection analyzer (FIA) system with a glassy carbon electrode as an amperometric detector. During optimization and measurements two sample injectors were used, one before and one after the enzyme cell, thus eliminating the background interferences. Subtraction of the signal area given in the presence of enzyme from the one given in the absence of enzyme was applied for measuring analyte concentrations and calibration at 400 mV. Analysis capacity of system is 25 samples/hour. The relative standard deviation (RSD) was below 5% (5 times repeated, 400 μmol/L conc.), linearity up to 400 μmol/L, limit of detection (LOD) 5 μmol/L, fitting of calibration curve in 25–400 μmol/L range was R ² = 0.99.     

Detection of platelet-associated IgG in chronic immune thrombocytopenic purpura using antibody-coated polyacrylamide beads

Platelet-associated IgG (PAIgG) was detected by means of anti-human IgG coated polyacrylamide beads ("Immunobeads") technique in 32 patients with chronic ITP. Both a direct test (with in vivo sensitized platelets) and an indirect test (with in vitro loaded platelets) were carried out. The percent of rosette forming beads was both in the direct test (41.2%) and in the indirect test (32.6%) significantly higher in the cases of chronic ITP patients than in the controls (2.5% and 3.2%, respectively). These results confirm the diagnostic value of this new, relatively simple and rapid method in routine clinical practice.     

The presence of a glycosyl phosphatidylinositol-anchored alpha-mannosidase in boar sperm

alpha-Mannosidase and beta-galactosidase were released from boar sperm into the medium by treatment with calcium ionophore A23187 or by 0.2% Brij-35/2% acetic acid. About half as much alpha-mannosidase activity as that in the acid extract was recovered by digestion with phosphatidylinositol-specific phospholipase C (PI-PLC), whereas the liberation rate of beta-galactosidase treated with PI-PLC was low. These results suggest that some alpha-mannosidase is anchored in the plasma membrane of the acrosomal region by attachment to the lipid phosphatidylinositol and that beta-galactosidase is localized mainly in the acrosome or integrated in the plasma membrane by a spanning stretch of hydrophobic peptides. beta-Galactosidase, which is present as an oligomers in the acid extract of sperm, dissociated into monomers under weakly alkaline conditions; under acidic conditions, the monomers associated again. No pH-sensitive association-dissociation of alpha-mannosidase was observed.