Transcriptional responses of the Helicobacter pylori cag pathogenicity island

Vannini, Andrea <1983>

22 April 2013

The severity of Helicobacter pylori infections largely depends on the genetic diversity of the infecting strain, and particularly on the presence of the cag pathogenicity island (cag-PAI). This virulence locus encodes a type-IV secretion system able to translocate in the host cell at least the cag-encoded toxin CagA and peptidoglycan fragments, that together are responsible for the pathogenic phenotype in the host. Little is known about the bacterial regulators that underlie the coordinated expression of cag gene products, needed to assemble a functional secretion system apparatus. To fill this gap, a comprehensive analysis of the transcriptional regulation of the cag-PAI operons was undertaken. To pursue this goal, a robust tool for the analysis of gene expression in H. pylori was first implemented. A bioluminescent reporter system based on the P. luminescens luxCDABE operon was constructed and validated by comparisons with transcriptional analyses, then it was systematically used for the comprehensive study and mapping of the cag promoters. The identification of bona fide cag promoters had permitted to pinpoint the set of cag transcriptional units of the PAI. The responses of these cag transcriptional units to metabolic stress signals were analyzed in detail, and integrated with transcription studies in deletion mutants of important H. pylori virulence regulators and protein-DNA interaction analyses to map the binding sites of the regulators. Finally, a small regulatory RNA cncR1 encoded by the cag-PAI was identified, and the 5’- and 3’-ends of the molecule were mapped by primer extension analyses, northern blot and studies with lux reporter constructs. To identify regulatory effects exerted by cncR1 on the H. pylori gene expression, the cncR1 knock out strain was derived and compared to the parental wild type strain by a macroarray approach. Results suggest a negative effect exerted by cncR1 on the regulome of the alternative sigma54 factor.

BIO/11 Biologia molecolare

Expression and Functions of Interleukin 11, a gp130 cytokine, in the Canine Eye

Richards, Tara

18 April 2013

Diseases of the eye are common problems in dogs and can be painful, therapeutically challenging and distressing to both patient and owner. Ocular disease can result in visual impairment, vision loss or, in severe cases, enucleation. Much of the tissue damage that occurs during ocular disease results from the activity of secreted proteins that control processes such as inflammation, blood vessel growth, cellular proliferation and cellular death. These proteins are called growth factors and cytokines. The purpose of this study was to examine the expression and effects of one such cytokine, interleukin 11, in the canine eye. Interleukin 11 was found to be constitutively expressed in all layers of the canine cornea at both the protein and message level. Treatment of primary corneal cell cultures with TGF-β1 resulted in a statistically significant increase in IL-11 expression in the corneal epithelium, fibroblasts and endothelium. In order to study the biological effects of IL-11 on the canine cornea, a presumptive corneal epithelial cell line (DCE39R) was created. Such a cell line represents an important, and previously unavailable, tool to study the effects of cytokines on the corneal epithelium itself as well as create corneal constructs for research and therapeutic work. Research done using this cell line demonstrated that IL-11 has a pro-migratory effect on the corneal epithelial cells and provides a cytoprotective effect in the case of nutrient deprivation. It however, does not induce proliferation of the canine corneal epithelial cells. This study serves as an important building block for future research on the effect of IL-11 in the canine cornea, and it also provides an important tool for future research: the cell line DCE39R. / Pet Trust

Canine, eye, Interleukin 11

Role of Notch signalling in human hepatocellular carcinoma

Minguzzi, Manuela <1982>

26 April 2012

The Notch signalling is a cellular pathway that results conserved from Drosophila to Homo sapiens controlling a wide range of cellular processes in development and in differentiated organs. It induces cell proliferation or differentiation, increased survival or apoptosis, and it is involved in stemness maintainance. These functions are conserved, but exerted with a high tissue and cellular context specificity. Signalling activation determs nuclear translocation of the receptor’s cytoplasmic domain and activation of target genes transcription. As many developmental pathway, Notch deregulation is involved in cancer, leading to oncogenic or tumour suppressive role depending on the functions exerted in normal tissue. Notch1 and Notch3 resulted aberrantly expressed in human hepatocellular carcinoma (HCC) that is the more frequent tumour of the liver and the sixth most common tumour worldwide. This thesis has the aim to investigate the role of the signalling in HCC, with particular attention to dissect common and uncommon regulatory pathways between Notch1 and Notch3 and to define the role of the signalling in HCC. Nocth1 and Notch3 were analysed on their regulation on Hes1 target and involvement in cell cycle control. They showed to regulate CDKN1C/p57kip2 expression through Hes1 target. CDKN1C/p57kip2 induces not only cell cycle arrest, but also senescence in HCC cell lines. Moreover, the involvement of Notch1 in cancer progression and epithelial to mesenchymal transition was investigated. Notch1 showed to induce invasion of HCC, regulating EMT and E- Cadherin expression. Moreover, Notch3 showed specific regulation on p53 at post translational levels. In vitro and ex vivo analysis on HCC samples suggests a complex role of both receptors in regulate HCC, with an oncogenic role but also showing tumour suppressive effects, suggesting a complex and deep involvement of this signalling in HCC.

BIO/11 Biologia molecolare

Role of the Transcription Factor Sox2 in the Osteogenic Lineage

Rosso, Michele <1984>

04 April 2014

The Sox2 transcription factor is modified by sumoylation at the K247 position although the addition of SUMO1 and Pias1 promotes the sumoylation of Sox2 at the additional K123 site. The role of sumoylation on Sox2 biological functions was analyzed by comparing the activity of WT and sumoylation mutants on the transcription of the FGF4 gene in HeLa cells and on the downregulation of the Wnt pathwayvin 293T cells. When SUMO1 and PIAS1 promote the sumoylation of WT Sox2, the transcriptional activity of the FGF4 promoter is inhibited showing that Sox2 sumoylation is necessary for the repression function. However, there is no effect of Sox2 sumoylation on β-Catenin activity. Since we were interested in osteoblast differentiation we set up an inducible system for Sox2 in primary osteoblasts. Following Sox2 doxycycline induction, 158 genes were differentially expressed: 120 up-regulated and 38 down-regulated. We annotated as direct Sox2 targets a number of genes involved in osteoblast biology and we further analyzed 3 of them involved in the BMP pathway. The results show that Sox2 regulates the BMP pathway without affecting SMAD phosphorylation, and that Sox2 sumoylation is not necessary for this function. We also found that genes involved in the Hippo pathway were direct Sox2 targets. As the Hippo pathway is activated by Sox2 and Sox2 interacts with the NF2 promoter, we checked the effect of Sox2 on the expression of NF2. We showed that Sox2 down-regulates the transcriptional activity of the NF2 promoter, allowing the transcription of the YAP/TEAD genes in osteoblasts, thus acting as an upstream regulator of the Hippo pathway. We conclude that Sox2 induction in osteoblasts triggers FGF dependent inhibition of the BMP, Wnt and Hippo pathways.

BIO/11 Biologia molecolare

Interactions of G-quadruplex binders and Topoisomerase I inhibitors in cancer cells

Tiang, Yee Peng <1981>

09 April 2015

Top1-DNA cleavage complexes (Top1ccs) trigger an accumulation of antisense RNAPII transcripts specifically at active divergent CpG-island promoters in a replication independent and Top1 dependent manner, leading to transcription-dependent genome instability and altered transcription regulation. Using different cancer cell lines of colon and osteo origins, we show that they display different sensitivity to CPT and G4 binder that is independent from Top1 level. To look at the interactions between Top1 and G4, we show that co-treatment with G4 binders potentiate the cell cytotoxicity of CPT regardless of the treatment sequences. Potentiation is indicated by a reduced inhibition concentration (IC50) with a more profound cytotoxicity in CPT-resistant cell lines, HCT15 and U2OS, hence, indicating an interaction between Top1inhibitor and G4 binders. Moreover, computational analysis confirmed the present of G4 motifs in genes with CPT-induced antisense transcription. G4 motifs are present mostly 5000 bp upstream from transcription start site and notably lower in genes. Comparisons between genes with no antisense transcription and genes with antisense transcription show that G4 motifs in this region are notably lower in the genes with antisense transcripts. Since CPT increases negative supercoils at promoters of intermediate activity, the formation of G4 is also increased in CPT-treated cells. Suprisingly, formation of G4 is regulated in parallel to the transient stabilization of R-loops, indicating a role in response to CPT-induced stress. G4 formation is highly elevated in Pyridostatin treated cells, which previous study shows increased formation of γH2Ax foci. This effect is also seen in the CPT-resistant cell lines, HCT15, indicating that the formation is a general event in response to CPT. We also show that R-loop formation is greatly increased in Pyridostatin treated cells. In order to study the role of R-loops and G4 structures in Top1cc-dependant repair pathway, we inhibited tyrosyl-phosphodiestrase 1 (TDP-1) using a TDP-1 inhibitor.

BIO/11 Biologia molecolare

Natural compounds Camptothecin and Triptolide: highly specific enzyme inhibitors and tools to dissect transcriptional functions

Manzo, Stefano Giustino <1986>

09 April 2015

With this work I elucidated new and unexpected mechanisms of two strong and highly specific transcription inhibitors: Triptolide and Campthotecin. Triptolide (TPL) is a diterpene epoxide derived from the Chinese plant Trypterigium Wilfoordii Hook F. TPL inhibits the ATPase activity of XPB, a subunit of the general transcription factor TFIIH. In this thesis I found that degradation of Rbp1 (the largest subunit of RNA Polymerase II) caused by TPL treatments, is preceded by an hyperphosphorylation event at serine 5 of the carboxy-terminal domain (CTD) of Rbp1. This event is concomitant with a block of RNA Polymerase II at promoters of active genes. The enzyme responsible for Ser5 hyperphosphorylation event is CDK7. Notably, CDK7 downregulation rescued both Ser5 hyperphosphorylation and Rbp1 degradation triggered by TPL. Camptothecin (CPT), derived from the plant Camptotheca acuminata, specifically inhibits topoisomerase 1 (Top1). We first found that CPT induced antisense transcription at divergent CpG islands promoter. Interestingly, by immunofluorescence experiments, CPT was found to induce a burst of R loop structures (DNA/RNA hybrids) at nucleoli and mitochondria. We then decided to investigate the role of Top1 in R loop homeostasis through a short interfering RNA approach (RNAi). Using DNA/RNA immunoprecipitation techniques coupled to NGS I found that Top1 depletion induces an increase of R loops at a genome-wide level. We found that such increase occurs on the entire gene body. At a subset of loci R loops resulted particularly stressed after Top1 depletion: some of these genes showed the formation of new R loops structures, whereas other loci showed a reduction of R loops. Interestingly we found that new peaks usually appear at tandem or divergent genes in the entire gene body, while losses of R loop peaks seems to be a feature specific of 3’ end regions of convergent genes.

BIO/11 Biologia molecolare

Polymerizing activity and regulation of group B Streptococcus pilus 2a sortase C1

Zerbini, Francesca <1982>

11 April 2014

Group B Streptococcus [GBS; Streptococcus agalactiae] is the leading cause of life-threatening diseases in newborn and is also becoming a common cause of invasive diseases in non-pregnant, elderly and immune-compromised adults. Pili, long filamentous fibers protruding from the bacterial surface, have been discovered in GBS, as important virulence factors and vaccine candidates. Gram-positive bacteria build pili on their cell surface via a class C sortase-catalyzed transpeptidation mechanism from pilin protein substrates. Despite the availability of several crystal structures, pilus-related C sortases remain poorly characterized to date and their mechanisms of transpeptidation and regulation need to be further investigated. The available three-dimensional structures of these enzymes reveal a typical sortase fold except for the presence of a unique feature represented by an N-terminal highly flexible loop, known as the “lid”. This region interacts with the residues composing the catalytic triad and covers the active site, thus maintaining the enzyme in an auto-inhibited state and preventing the accessibility to the substrate. It is believed that enzyme activation may occur only after lid displacement from the catalytic domain. In this work we provide the first direct evidence of the regulatory role of the lid, demonstrating that it is possible to obtain in vitro an efficient polymerization of pilin subunits using an active C sortase lid mutant carrying a single residue mutation in the lid region. Moreover, biochemical analyses of this recombinant mutant reveal that the lid confers thermodynamic and proteolytic stability to the enzyme. A further characterization of this sortase active mutant showed promiscuity in the substrate recognition, as it is able to polymerize different LPXTG-proteins in vitro.

BIO/11 Biologia molecolare

RNA non-codificanti indotti da danno al DNA regolano il fattore di trascrizione HIF-1α / DNA damage-induced ncRNAs regulate HIF-1α transcription factor

Bertozzi, Davide <1983>

27 April 2012

Recenti analisi sull’intero trascrittoma hanno rivelato una estensiva trascrizione di RNA non codificanti (ncRNA), le quali funzioni sono tuttavia in gran parte sconosciute. In questo lavoro è stato dimostrato che alte dosi di camptotecina (CPT), un farmaco antitumorale inibitore della Top1, aumentano la trascrizione di due ncRNA antisenso in 5’ e 3’ (5'aHIF-1α e 3'aHIF-1α rispettivamente) al locus genico di HIF-1α e diminuiscono i livelli dell’mRNA di HIF-1α stesso. Gli effetti del trattamento sono Top1-dipendenti, mentre non dipendono dal danno al DNA alla forca di replicazione o dai checkpoint attivati dal danno al DNA. I ncRNA vengono attivati in risposta a diversi tipi di stress, il 5'aHIF-1α è lungo circa 10 kb e possiede sia il CAP in 5’ sia poliadenilazione in 3’ (in letteratura è noto che il 3'aHIF-1α è un trascritto di 1,7 kb, senza 5’CAP né poliadenilazione). Analisi di localizzazione intracellulare hanno dimostrato che entrambi sono trascritti nucleari. In particolare 5'aHIF-1α co-localizza con proteine del complesso del poro nucleare, suggerendo un suo possibile ruolo come mediatore degli scambi della membrana nucleare. È stata dimostrata inoltre la trascrizione dei due ncRNA in tessuti di tumore umano del rene, evidenziandone possibili ruoli nello sviluppo del cancro. È anche noto in letteratura che basse dosi di CPT in condizioni di ipossia diminuiscono i livelli di proteina di HIF-1α. Dopo aver dimostrato su diverse linee cellulari che i due ncRNA sopracitati non potessero essere implicati in tale effetto, abbiamo studiato le variazioni dell’intero miRnoma alle nuove condizioni sperimentali. In tal modo abbiamo scoperto che il miR-X sembra essere il mediatore molecolare dell’abbattimento di HIF-1α dopo trattamento con basse dosi di CPT in ipossia. Complessivamente, questi risultati suggeriscono che il fattore di trascrizione HIF-1α venga finemente regolato da RNA non-codificanti indotti da danno al DNA. / Whole transcriptome analyses revealed a broad transcription of non-coding RNAs (ncRNA), which functions are largely unknown. In this work it was shown that high doses of camptothecin (CPT), an antitumor inhibitor of Top1, increase the transcription of two ncRNA antisense 5 'and 3' (5'aHIF-1α and 3'aHIF-1α respectively) respect to the locus HIF-1α gene and decreased HIF-1α mRNA levels. Treatment effects are Top1-dependent, while are not dependent by the replication fork-mediated DNA damage or by DNA damage-activated checkpoints. The ncRNAs are activated in response to different stress types, the 5'aHIF-1α is about 10 kb length and it has both 5’CAP and polyadenylation (in literature it is known that the 3'aHIF-1α is a transcript of 1.7 kb, with no 5'CAP and no polyadenylation). Intracellular localization have shown that both ncRNAs are nuclear transcripts. In particular 5'aHIF-1α co-localizes with nuclear pore complex proteins, suggesting its possible role as a traffic-mediator of the nuclear membrane. It has been demonstrated also the transcription of the two ncRNAs in human kidney tumor tissues, highlighting it possible roles in cancer development. It is also known that low doses of CPT in hypoxia conditions decrease the HIF-1α protein levels. Having demonstrated on several cell lines that the two ncRNA above could not be implicated in this effect, we studied the entire human miRnoma variations under our experimental conditions. Thus we found that miR-X seems to be the molecular mediator of HIF-1α abatement after low doses CPT treatment in hypoxia conditions. Overall, these results suggest that HIF-1α transcription factor is finely regulated by non-coding RNA induced by DNA damage.

BIO/11 Biologia molecolare

Valutazione preclinica di nuovi potenziali bersagli terapeutici per la cura del medulloblastoma. / Preclinical evaluation of new therapeutic targets for Medulloblastoma treatment.

De Marco, Ester <1982>

03 May 2012

Il medulloblastoma (MB) è il tumore più comune del sistema nervoso centrale. Attualmente si riesce a curare solo il 50-60% dei pazienti che tuttavia presentano gravi effetti collaterali dovuti alle cure molto aggressive. Una recente classificazione molecolare ha ridistribuito le varianti più comuni di MB in quattro distinti gruppi. In particolare, il gruppo SHH e D sono caratterizzati da un’ alta espressione di MYCN ed associati a prognosi sfavorevole. MYCN è coinvolto nella regolazione della proliferazione cellulare, differenziazione, apoptosi, angiogenesi e metastasi. L’obiettivo di questo lavoro è la valutazione dell’attività antitumorale di oligonucleotidi diretti contro MYCN, sia in vitro su diverse linee cellulari di MB che in vivo in modelli murini xenograft ortotopici di MB. I risultati hanno dimostrato un’ottima inibizione della crescita in linee cellulari di MB, accompagnata da una riduzione della trascrizione genica e dei livelli proteici di MYCN. Inoltre, sono stati confermati tramite RT-PCR alcuni dei geni trovati significativamente variati nell’esperimento di microarray , dopo il trattamento. Molto interessanti sono stati geni quali BIRC5, che risulta down regolato mentre il gene p21 risulta up regolato in tutte le linee cellulari di MB utilizzate. Inoltre, sono stati generati modelli murini di MB utilizzando cellule precedentemente trasfettate per esprimere il gene della luciferasi e valutarne così la crescita tumorale tramite imaging bioluminescente in vivo (BLI), al fine di poter testare l’attività antitumorale data dagli oligonucleotidi. I risultati hanno dimostrato una buona risposta al trattamento come rilevato dalla tecnica di BLI. I dati preliminari prodotti, dimostrano che MYCN potrebbe esser un buon target per la terapia del MB nei casi in cui è overespresso. In particolare, una sua inibizione potrebbe presentare effetti indesiderati moderati in quanto è poco espresso dopo la nascita. / Medulloblastoma (MB) is the most common paediatric tumor of central nervous system. Currently only 50-60% of the patients are successfully cured and many of the patients who survive exhibit serious side effects due to the very aggressive therapies they underwent. Recently, molecular classification revealed that MBs can be categorized in four distinct subtypes. In particular, subtype SHH and D are characterised molecularly by high levels of MYCN and are associated with the worst prognosis. The N-Myc protein is involved in the regulation of the cellular proliferation, differentiation, apoptosis, angiogenesis, metastasis. The purpose of this work is the evaluation of the specific anti-tumor activity of anti-MYCN oligonucleotides in vitro using different MB cell lines and in vivo, in xenograft MB mouse models. These treatments resulted in a remarkable reduction of the growing rate in Mb cell lines followed by downregulation in gene transcription and protein levels of MYCN. Moreover, I confirmed in RT-PCR some of the candidate genes that were found significantly differentiated in the microarray experiment, after treatment. I found very interesting genes like BIRC5, that is down-regulated, while p21 is up-regulated in all MB cell lines. I also generated MB mouse models using cells transfected with luciferase to evaluated tumor growth througt bioluminescence imaging (BLI) in vivo in order to test the oligonucleotide anti-tumoral activity. The results showed a good response to treatment as monitored by BLI tumor signal. Finally, the primary studies showed that MYCN could be a target for MB therapy when the overexpression is present. In particularly, due its very restricted expression pattern after bird side effects of systemic down-regulation of MYCN can be expected to be moderate.

BIO/11 Biologia molecolare

Streptococcus agalactiae adapts to glucose stress conditions by modulating gene expression profile

Di Palo, Benedetta <1984>

27 April 2012

Diabetes mellitus is considered a risk factor for Group B Streptococcus (GBS) infections. Typically, this pathology is associated to high glucose levels in the bloodstream. Although clinical evidences support this notion, the physiological mechanisms underlying GBS adaptation to such conditions are not yet defined. In the attempt to address this issue, we performed comparative global gene expression analysis of GBS grown under glucose-stress conditions and observed that a number of metabolic and virulence genes was differentially regulated. Of importance, we also demonstrated that by knocking-out the csrRS locus the transcription profile of GBS grown in high-glucose conditions was profoundly affected, with more than a third of glucose-dependent genes, including the virulence factor bibA, found to be controlled by this two-component system. Furthermore, in vitro molecular analysis showed that CsrR specifically binds to the bibA promoter and the phosphorilation increases the affinity of the regulator to this promoter region. Moreover, we demonstrated that CsrR acts as a repressor of bibA expression by binding to its promoter in vivo. In conclusion, this work by elucidating both the response of GBS to pathological glucose conditions and the underlined molecular mechanisms will set the basis for a better understanding of GBS pathogenesis.

BIO/11 Biologia molecolare