CCN3 suppresses mitogenic signalling and reinstates growth control mechanisms in Chronic Myeloid Leukaemia

CCN3, a tumour suppressor gene, is down-regulated as a result of BCR-ABL tyrosine kinase activity in Chronic Myeloid Leukaemia (CML). We have established a stable CCN3 expression model in the human K562 CML cell line and have further validated the role for CCN3 in the leukaemogenic process. K562 cells stably transfected with CCN3 (K562/CCN3; 2.25 × 10⁶ copies per 50 ng cDNA) demonstrated over 50% reduction in cell growth in comparison to cells stably transfected with empty vector (K562/control; p = 0.005). K562/CCN3 cells had reduced colony formation capacity (reduced by 29.7%, p = 0.03) and reduced mitogenic signalling in comparison to K562/control cells (reduced by 29.5% (p = 0.002) and 37.4% (p = 0.017) for phosphorylation levels of ERK and AKT respectively). K562/CCN3 cells showed an accumulation of events within the subG₀ phase of the cell cycle and increased apoptosis was confirmed by a three-fold increase in annexin V binding (p < 0.05). K562/CCN3 cells exposed to Imatinib (1 μM and 5 μM) showed an increase in events within the subG₀ phase of cell cycle over 96 h and mirrored the enhanced cell kill demonstrated by Annexin staining. Wild type K562 cells treated with recombinant human Ccn3 (10 nM) in combination with Imatinib (5 μM) also displayed enhanced cell kill (p = 0.008). K562/CCN3 cells displayed increased adhesion to matrigel™ (2.92 ± 0.52 fold increase compared to K562/control) which was commensurate with increased expression of the alpha 6 and beta 4 integrins (6.53 ± 0.47 and 1.94 ± 0.07 fold increase in gene expression respectively (n = 3, p < 0.05)). CCN3 restores cellular growth regulatory properties that are absent in CML and sensitises CML cells to imatinib induced apoptosis. CCN3 may provide novel avenues for the development of alternate therapeutic strategies.     

VE-cadherin trans-interactions modulate Rac activation and enhancement of lung endothelial barrier by iloprost

Small GTPase Rac is important regulator of endothelial cell (EC) barrier enhancement by prostacyclin characterized by increased peripheral actin cytoskeleton and increased interactions between VE-cadherin and other adherens junction (AJ) proteins. This study utilized complementary approaches including siRNA knockdown, culturing in Ca(2+) -free medium, and VE-cadherin blocking antibody to alter VE-cadherin extracellular interactions to investigate the role of VE-cadherin outside-in signaling in modulation of Rac activation and EC barrier regulation by prostacyclin analog iloprost. Spatial analysis of Rac activation in pulmonary EC by FRET revealed additional spike in iloprost-induced Rac activity at the sites of newly formed cell-cell junctions. In contrast, disruption of VE-cadherin extracellular trans-interactions suppressed iloprost-activated Rac signaling and attenuated EC barrier enhancement and cytoskeletal remodeling. These inhibitory effects were associated with decreased membrane accumulation and activation of Rac-specific guanine nucleotide exchange factors (GEFs) Tiam1 and Vav2. Conversely, plating of pulmonary EC on surfaces coated with extracellular VE-cadherin domain further promoted iloprost-induced Rac signaling. In the model of thrombin-induced EC barrier recovery, blocking of VE-cadherin trans-interactions attenuated activation of Rac pathway during recovery phase and delayed suppression of Rho signaling and restoration of EC barrier properties. These results suggest that VE-cadherin outside-in signaling controls locally Rac activity stimulated by barrier protective agonists. This control is essential for maximal EC barrier enhancement and accelerated barrier recovery.     

The conserved glycine/alanine residue of the active-site loop containing the putative acetylCoA-binding motif is essential for the overall structural integrity of Mesorhizobium loti arylamine N-acetyltransferase 1

The arylamine N-acetyltransferases are important xenobiotic-metabolizing enzymes that catalyze an acetyl group transfer from acetylCoA to arylamine substrates. NAT enzymes possess an active-site loop (the active-site P-loop) involved in substrate binding and selectivity. The Gly/Ala residue present at the start of the active-site P-loop, although conserved in all NAT enzymes, is not involved in the catalytic mechanism or substrate binding. Here we show that a small amino acid (such as Gly or Ala) at this position is important not only for maintaining the functions of the active-site P-loop but, more surprisingly, also important for maintaining the overall structural integrity of NAT enzymes. Our data thus suggest that in addition to its role in substrate binding and selectivity, the active-site P-loop could play a wider structural role in NAT enzymes.     

Knocking down Israa,the Zmiz1 intron-nested gene,unveils interrelated T cell activation functions in mouse

We previously reported Israa (immune-system-released activating agent), a novel gene nested in intron 6 of the mouse Zmiz1 gene. Zmiz1 is involved in several functions such as fertility and T cell development and its knockout leads to non-viable embryos. We also reported ISRAA's expression in lymphoid organs, particularly in the thymus CD³⁺ T cells during all developmental stages. In addition, we showed that ISRAA is a binding partner of Fyn and Elf-1 and regulates the expression of T cell activation-related genes in vitro. In this paper, we report the generation and characterization of an Israa^?/? constitutive knockout mouse. The histological study shows that Israa^?/? mice exhibit thymus and spleen hyperplasia. Israa^?/? derived T cells showed increased proliferation compared to the wild-type mice T cells. Moreover, gene expression analysis revealed a set of differentially expressed genes in the knockout and wild-type animals during thymus development (mostly genes of T cell activation pathways). Immunological phenotyping of the thymocytes and splenocytes of Israa^?/- showed no difference with those of the wild-type. Moreover, we observed that knocking out the Zmiz1 intron embedded Israa gene does not affect mice fertility, thus does not disturb this Zmiz1 function. The characterization of the Israa^?/- mouse confirms the role ISRAA plays in the expression regulation of genes involved in T cell activation established in vitro. Taken together, our findings point toward a potential functional interrelation between the intron nested Israa gene and the Zmiz1 host gene in regulating T cell activation. This constitutively Israa^?/? mice can be a good model to study T cell activation and to investigate the relationship between host and intron-nested genes.     

Circulating microRNA profile in humans and mice with congenital GH deficiency

Reduced inflammation, increased insulin sensitivity, and protection against cancer are shared between humans and mice with GH/IGF1 deficiency. Beyond hormone levels, miRNAs are important regulators of metabolic changes associated with healthy aging. We hypothesized that GH deficiency in humans alters the abundance of circulating miRNAs and that a subset of those miRNAs may overlap with those found in GH‐deficient mice. In this study, subjects with untreated congenital isolated GH deficiency (IGHD; n = 23) and control subjects matched by age and sex (n = 23) were recruited and serum was collected for miRNA sequencing. Serum miRNAs from young (6 month) and old (22 month) Ames dwarf (df/df) mice with GH deficiency and their WT littermates (n = 5/age/genotype group) were used for comparison. We observed 14 miRNAs regulated with a genotype by age effect and 19 miRNAs regulated with a genotype effect independent of age in serum of IGHD subjects. These regulated miRNAs are known for targeting pathways associated with longevity such as mTOR, insulin signaling, and FoxO. The aging function was overrepresented in IGHD individuals, mediated by hsa‐miR‐31, hsa‐miR‐146b, hsa‐miR‐30e, hsa‐miR‐100, hsa‐miR‐181b‐2, hsa‐miR‐195, and hsa‐miR‐181b‐1, which target the FoxO and mTOR pathways. Intriguingly, miR‐181b‐5p, miR‐361‐3p, miR‐144‐3p, and miR‐155‐5p were commonly regulated in the serum of humans and GH‐deficient mice. In vitro assays confirmed target genes for the main up‐regulated miRNAs, suggesting miRNAs regulated in IGHD individuals can regulate the expression of age‐related genes. These findings indicate that systemic miRNAs regulated in IGHD individuals target pathways involved in aging in both humans and mice.     

Kinetic Study of Neuropeptide Y (NPY) Proteolysis in Blood and Identification of NPY3�C35: A NEW PEPTIDE GENERATED BY PLASMA KALLIKREIN*

There is little information on how neuropeptide Y (NPY) proteolysis by peptidases occurs in serum, in part because reliable techniques are lacking to distinguish different NPY immunoreactive forms and also because the factors affecting the expression of these enzymes have been poorly studied. In the present study, LC-MS/MS was used to identify and quantify NPY fragments resulting from peptidolytic cleavage of NPY_1–36 upon incubation with human serum. Kinetic studies indicated that NPY_1–36 is rapidly cleaved in serum into 3 main fragments with the following order of efficacy: NPY_3–36 ≫ NPY_3–35 > NPY_2–36. Trace amounts of additional NPY forms were identified by accurate mass spectrometry. Specific inhibitors of dipeptidyl peptidase IV, kallikrein, and aminopeptidase P prevented the production of NPY_3–36, NPY_3–35, and NPY_2–36, respectively. Plasma kallikrein at physiological concentrations converted NPY_3–36 into NPY_3–35. Receptor binding assays revealed that NPY_3–35 is unable to bind to NPY Y1, Y2, and Y5 receptors; thus NPY_3–35 may represent the major metabolic clearance product of the Y2/Y5 agonist, NPY_3–36.Neuropeptide Y (NPY)² is a 36-amino acid peptide involved in the central and peripheral control of blood pressure (1–4) and in feeding behavior and obesity (5–9). NPY stimulates at least 6 types of receptors, called Y1, Y2, Y3, Y4, Y5, and y6 (10–12). The Y1 receptor has high affinity for full-length NPY, while Y2 and Y5 receptors bind and are stimulated by full-length and N-terminally truncated NPY. The physiological effects associated to the Y1 and Y2 receptors are the best known; exposure to a Y1 agonist causes an increase in blood pressure and potentiates postsynaptically the action of other vasoactive substances (1, 4, 13), whereas Y2 receptors are mainly located presynaptically, and upon stimulation mediate the inhibition of neurotransmitter release (14, 15). NPY is a prototype of peptide whose function can be altered by proteases. Among peptidases displaying a high affinity for NPY, the primary role appears to be played by dipeptidyl peptidase IV (DPPIV, EC 3.4.14.5), a serine-type protease, also known as CD26, that releases an N-terminal dipeptide, Xaa-Xab- -Xac, preferentially when Xab is a proline or an alanine residue (16). By cleaving the Tyr-Pro dipeptide off the NPY N-terminal extremity, DPPIV generates NPY_3–36, a truncated form that loses its affinity for the Y1 receptor and becomes a Y2/Y5 receptor agonist (17, 18).NPY can also be degraded by aminopeptidase P (AmP, EC 3.4.11.9), a metalloprotease that hydrolyzes the peptide bond between the first and the second amino acid residue at the N terminus of proteins, if the second amino acid is a proline (19). AmP removes the N-terminal tyrosine from NPY to generate NPY_2–36, a selective Y2 agonist (18, 20). There is little information on how NPY cleavage by these enzymes occurs in serum, in part because reliable techniques are lacking to distinguish different NPY immunoreactive (NPYir) forms and also because the factors affecting the expression of these enzymes have been poorly studied. Recently, Frerker et al. (21) reported by MALDI-TOF mass spectrometry that NPY_1–36 is exclusively degraded by DPPIV into NPY_3–36 in EDTA-plasma but they did not provide kinetics of NPY cleavage efficiency of DPPIV. Beck-Sickinger and co-workers (22) studied with the same technique the metabolic stability of fluorescent N-terminally labeled NPY analogues incubated in human plasma and found that the 36th, 35th, and 33rd residues of NPY analogues may also be removed by unknown carboxypeptidases.We have set up a method using liquid chromatography coupled with tandem mass spectrometry (LC-MSⁿ) to selectively quantify NPY and its C-terminal fragments NPY_2–36 and NPY_3–36 digested by human serum. The assays used the internal standard methodology with stable isotopes NPY_1–36 (IDA) (23, 24) or porcine NPY_1–36 as internal standard.The goal of this work was: 1) to determine to which extent NPY_1–36 is degraded by proteases present in human serum and whether an inhibition of DPPIV and AmP by vildagliptin and apstatin (two specific protease inhibitors), respectively, may affect the metabolism of NPY in serum; 2) to assign kinetic values to the proteases involved in the cleavage process toward NPY; and 3) to characterize new NPY-truncated forms and to check for their possible binding capacities on NPY receptors.     

Characterisation of 5-HT3C, 5-HT3D and 5-HT3E receptor subunits: evolution, distribution and function

The 5‐HT₃ receptor is a member of the ‘Cys‐loop’ family of ligand‐gated ion channels that mediate fast excitatory and inhibitory transmission in the nervous system. Current evidence points towards native 5‐HT₃ receptors originating from homomeric assemblies of 5‐HT_3A or heteromeric assembly of 5‐HT_3A and 5‐HT_3B. Novel genes encoding 5‐HT_3C, 5‐HT_3D, and 5‐HT_3E have recently been described but the functional importance of these proteins is unknown. In the present study, in silico analysis (confirmed by partial cloning) indicated that 5‐HT_3C, 5‐HT_3D, and 5‐HT_3E are not human–specific as previously reported: they are conserved in multiple mammalian species but are absent in rodents. Expression profiles of the novel human genes indicated high levels in the gastrointestinal tract but also in the brain, Dorsal Root Ganglion (DRG) and other tissues. Following the demonstration that these subunits are expressed at the cell membrane, the functional properties of the recombinant human subunits were investigated using patch clamp electrophysiology. 5‐HT_3C, 5‐HT_3D, and 5‐HT_3E were all non‐functional when expressed alone. Co‐transfection studies to determine potential novel heteromeric receptor interactions with 5‐HT_3A demonstrated that the expression or function of the receptor was modified by 5‐HT_3C and 5‐HT_3E, but not 5‐HT_3D. The lack of distinct effects on current rectification, kinetics or pharmacology of 5‐HT_3A receptors does not however provide unequivocal evidence to support a direct contribution of 5‐HT_3C or 5‐HT_3E to the lining of the ion channel pore of novel heteromeric receptors. The functional and pharmacological contributions of these novel subunits to human biology and diseases such as irritable bowel syndrome for which 5‐HT₃ receptor antagonists have major clinical usage, therefore remains to be fully determined.     

Hereditary breast cancer in Middle Eastern and North African (MENA) populations: identification of novel, recurrent and founder BRCA1 mutations in the Tunisian population

Germ-line mutations in BRCA1 breast cancer susceptibility gene account for a large proportion of hereditary breast cancer families and show considerable ethnic and geographical variations. The contribution of BRCA1 mutations to hereditary breast cancer has not yet been thoroughly investigated in Middle Eastern and North African populations. In this study, 16 Tunisian high-risk breast cancer families were screened for germline mutations in the entire BRCA1 coding region and exon?Cintron boundaries using direct sequencing. Six families were found to carry BRCA1 mutations with a prevalence of 37.5%. Four different deleterious mutations were detected. Three truncating mutations were previously described: c.798_799delTT (916 delTT), c.3331_3334delCAAG (3450 delCAAG), c.5266dupC (5382 insC) and one splice site mutation which seems to be specific to the Tunisian population: c.212?+?2insG (IVS5?+?2insG). We also identified 15 variants of unknown clinical significance. The c.798_799delTT mutation occurred at an 18% frequency and was shared by three apparently unrelated families. Analyzing five microsatellite markers in and flanking the BRCA1 locus showed a common haplotype associated with this mutation. This suggests that the c.798_799delTT mutation is a Tunisian founder mutation. Our findings indicate that the Tunisian population has a spectrum of prevalent BRCA1 mutations, some of which appear as recurrent and founding mutations.