Immunoexpression of integrins in ameloblastoma, adenomatoid odontogenic tumor, and human tooth germs

The expression of integrins alpha2beta1, alpha3beta1, and alpha5beta1 in 30 ameloblastomas (20 solid and 10 unicystic tumors), 12 adenomatoid odontogenic tumors (AOTs), and 5 human tooth germs in different stages of odontogenesis was analyzed. The distribution, location, pattern, and intensity of immunohistochemical expression were evaluated. Intensity was analyzed using scores (0 = absence, 1 = weak staining, and 2 = strong staining). No difference in the immunoexpression of the integrins was observed between solid and unicystic ameloblastomas. When these two ameloblastoma types were pooled into a single group, the following significant differences were found: immunoexpression of integrin alpha2beta1 was stronger in ameloblastomas than in AOTs and tooth germs, and the expression of integrin alpha5beta1 was stronger in ameloblastomas than in AOTs. The lack of detection of integrin alpha3beta1 in tooth germs and its detection in the odontogenic tumors studied suggest that this integrin might be used as a marker of neoplastic transformation in odontogenic tissues.

Insulin-like growth factor receptor activity in cancer biology & therapy responses

The Insulin-like Growth Factor 1 Receptor (IGF-1R) has an essential function in normal cell growth and in cancer progression. However, anti-IGF-1R therapies have mostly been withdrawn from clinical trials owing to a lack of efficacy and predictive biomarkers. IGF-1R activity and signalling in cancer cells is regulated by its C-terminal tail, and in particular, by a motif that encompasses tyrosines 1250 and 1251 flanked by serines 1248 and 1252 (1248- SFYYS-1252). Mutation of Y1250/1251 greatly reduces IGF-1-promoted cell migration, interaction with the scaffolding protein RACK1 in the context Integrin signalling, and IGF- 1R kinase activity. Here we investigated the phosphorylation of the SFYYS motif and characterise the conditions under which this motif may be phosphorylated under. As phosphorylated residues, the SFYYS motif may also serve to recruit interacting proteins to the IGF-1R. To this end we identified a novel IGF-1R interacting partner which requires phosphorylated residues in the SFYYS motif to interact with the IGF-1R. This interaction was found to be IGF-1-dependent, and required the scaffold protein RACK1. The interaction of this binding protein with the IGF-1R likely functions to promote maximal phosphorylation of Shc and ERK in IGF-1-stimulated cell migration, and may be important for IGF-1 signalling in cancer cells. Lastly, we have investigated possible kinases that may confer resistance or sensitivity to the IGF-1R kinase inhibitor BMS-754807. In this screen we identified ATR as a mediator of resistance and showed that suppression or chemical inhibition of ATR synergised with BMS-754807 to reduce colony formation. This work has contributes to our understanding of IGF-1R kinase regulation and signalling and suggests that administration of anti-IGF-1R drugs with ATR inhibitors may have therapeutic benefit.

Vasodilator-Stimulated Phosphoprotein (VASP)-dependent and -independent pathways regulate thrombin-induced activation of Rap1b in platelets

Background: Vasodilator-Stimulated Phosphoprotein (VASP) is involved in the inhibition of agonist-induced platelet aggregation by cyclic nucleotides and the adhesion of platelets to the vascular wall. αIIbβ3 is the main integrin responsible for platelet activation and Rap1b plays a key role in integrin signalling. We investigated whether VASP is involved in the regulation of Rap1b in platelets since VASP-null platelets exhibit augmented adhesion to endothelial cells in vivo.

Methods: Washed platelets from wild type and VASP-deficient mice were stimulated with thrombin, the purinergic receptors agonist ADP, or the thromboxane A2 receptor agonist U46619 and Rap1b activation was measured using the GST-RalGDS-RBD binding assay. Interaction of VASP and Crkl was investigated by co-immunoprecipitation, confocal microscopy, and pull-down assays using Crkl domains expressed as GST-fusion proteins.

Results: Surprisingly, we found that activation of Rap1b in response to thrombin, ADP, or U46619 was significantly reduced in platelets from VASP-null mice compared to platelets from wild type mice. However, inhibition of thrombin-induced activation of Rap1b by nitric oxide was similar in platelets from wild type and VASP-null mice indicating that the NO/cGMP/PKG pathway controls inhibition of Rap1b independently from VASP. To understand how VASP regulated Rap1b, we investigated association between VASP and the Crk-like protein (Crkl), an adapter protein which activates the Rap1b guanine nucleotide exchange factor C3G. We demonstrated the formation of a Crkl/VASP complex by showing that: 1) Crkl co-immunoprecipitated VASP from platelet lysates; 2) Crkl and VASP dynamically co-localized at actin-rich protrusions reminiscent of focal adhesions, filopodia, and lamellipodia upon platelet spreading on fibronectin; 3) recombinant VASP bound directly to the N-terminal SH3 domain of Crkl; 4) PKA-mediated VASP phosphorylation on Ser157 abrogated the binding of Crkl.

Conclusions: We identified Crkl as a novel protein interacting with VASP in platelets. We propose that the C3G/Crkl/VASP complex plays a role in the regulation of Rap1b and this explains, at least in part, the reduced agonist-induced activation of Rap1b in VASP-null platelets. In addition, the fact that PKA-dependent VASP phosphorylation abrogated its interaction with Crkl may provide, at least in part, a rationale for the PKA-dependent inhibition of Rap1b and platelet aggregation.

Role for cell-to-cell communication in stem cell specification toward pancreatic progenitors: relevance to the design of novel therapies for diabetes.

Thesis (Ph.D.)--University of Washington, 2016-08

Caractérisation d'IGFBP-2 comme biomarqueur intégrateur de la santé cardiométabolique

La protéine de liaison aux facteurs de croissance analogues à l’insuline (IGFBP)-2 est une protéine circulante fortement associée à la résistance à l’insuline qui module les effets métaboliques d’IGF-I et IGF-II en s’y associant directement, et qui exerce aussi des actions IGF-indépendantes via sa liaison à la matrice extracellulaire et aux intégrines. Chez l’homme, de faibles niveaux d’IGFBP-2 sont associés à un profil lipidique délétère, ainsi qu’à une augmentation de la masse grasse et de la résistance à l’insuline. Les travaux décrits dans cette thèse montrent chez l’humain et la souris que les niveaux d’IGFBP-2 sont associés de manière indépendante aux composantes du risque cardiométabolique. Chez l’homme, de faibles niveaux d’IGFBP-2 sont associés à la dyslipidémie athérogène. Une valeur seuil d’IGFBP-2 de 221.5 ng/mL a permis de discriminer entre les sujets métaboliquement sains et ceux répondant aux critères du syndrome métabolique. En plus de son association avec la résistance à l’insuline et les composantes du profil lipidique, de faibles niveaux d’IGFBP-2 sont associés à une fonction cardiaque diminuée chez les patients atteints de sténose aortique, tel qu’évaluée par le volume d’éjection indexé, un indice de fonction global du ventricule gauche qui intègre la fonction pompe et le remodelage du tissu. Chez l’homme, des niveaux d’IGFBP-2 élevés sont associés à un tissu adipeux brun plus volumineux ainsi qu’à une activité métabolique plus importante de ce dernier. Ces observations, telles qu’évaluées par PET/CT, sont aussi validées chez les souris surexprimant la forme humaine d’IGFBP-2. Nos travaux démontrent que les niveaux d’IGFBP-2 sont fortement associés au métabolisme des lipoprotéines et des lipides, à la fonction cardiaque ainsi qu’à l’activité du tissu adipeux brun. L’influence des niveaux d’IGFBP-2 par différentes altérations métaboliques menant à l’augmentation du risque cardiométabolique pourrait faire de ce dernier un biomarqueur précoce et intégrateur. Les travaux exposés dans la présente thèse soulignent aussi un rôle mécanistique potentiel pour IGFBP-2 dans la protection contre certaines altérations du métabolisme.

Soybean lunasin mediates colon carcinogenesis by inducing apoptosis and preventing outgrowth of metastasis

Colorectal cancer (CRC) is the third most common cancer worldwide. Various factors such as age, lifestyle and dietary patterns affect the risk of having CRC. Epidemiological studies showed a chemopreventive effect of soy consumption against CRC. However, which component(s) of soybean is associated with this reduced risk is not yet fully delineated. The objective of this research was to evaluate the anti-colon cancer potential of lunasin isolated from defatted soybean flour using in vitro and in vivo models of CRC. Lunasin was isolated from defatted soybean flour by a combination of different chromatographic and ultrafiltration techniques. The anti-colon cancer potential of lunasin was determined using different human colon cancer cell lines in vitro and a CRC liver metastasis model in vivo. Lunasin caused cytotoxicity to different human colon cancer cells with an IC50 value of 13.0, 21.6, 26.3 and 61.7 µM for KM12L4, RKO, HCT-116 and HT-29 human colon cancer cells, respectively. This cytotoxicity correlated with the expression of the α5 integrin on human colon cancer cells with a correlation coefficient of 0.78. The mechanism involved in the cytotoxic effect of lunasin was through cell cycle arrest and induction of the mitochondrial pathway of apoptosis. In KM12L4 human colon cancer cells, lunasin caused a G2/M phase arrest increasing the percentage of cells at G2/M phase from 12% (PBS-treated) to 24% (treated with 10 µM lunasin). This arrest was attributed to the capability of lunasin to increase the expression of cyclin dependent kinase inhibitors p21 and p27. At 10 µM, lunasin increased the expression of p21 and p27 in KM12L4 colon cancer cells by 2.2- and 2.3-fold, respectively. Flow cytometric analysis showed that lunasin at 10 µM increased the percentage of cells undergoing apoptosis from 13.6% to 24.7%. This is further supported by fluorescence microscopic analysis of KM12L4 cells treated with 10 µM lunasin showing chromatin condensation and DNA fragmentation. The mechanism involved is through modification of proteins involved in the mitochondrial pathway of apoptosis in KM12L4 cells as 10 µM lunasin reduced the expression of the anti-apoptotic Bcl-2 protein by 2-fold and increased the expression of the pro-apoptotic proteins Bax, cytochrome c and nuclear clusterin by 2.2-, 2.1- and 2.3- fold, respectively. This led to increased expression and activity of the executioner of apoptosis, caspase-3 by 1.8- and 2.3-fold, respectively. This pro-apoptotic property of lunasin can be attributed to its capability to internalize into the cytoplasm and nucleus of colon cancer cells 24 h and 72 h after treatment, respectively. In addition, lunasin mediated metastasis of colon cancer cells in vitro by inhibiting the focal adhesion kinase activation thereby reducing expression of extracellular regulated kinase and nuclear factor kappa B and finally inhibiting migration of colon cancer cells. In KM12L4 colon cancer cells, 10 µM lunasin resulted in the reduction of phosphorylation of focal adhesion kinase and extracellular regulated kinase by 2.5-fold, resulting in the reduced nuclear translocation of p50 and p65 NF-κB subunits by 3.8- and 1.4-fold, respectively. In an in vivo model of CRC liver metastasis, daily intraperitoneal administration of lunasin at 4 mg/kg body weight resulted in the inhibition of KM12L4 liver metastasis as shown by the reduction of the number of liver metastases from 28 (PBS-treated) to 14 (lunasin-treated, P = 0.047) and reduction in tumor burden as measured by liver weight/body weight from 0.13 (PBS-treated) to 0.10 (lunasin-treated, P = 0.039). Moreover, lunasin potentiated the anti-metastatic effect of the chemotherapeutic drug oxaliplatin given at 5 mg/kg body weight twice per week. Lunasin and oxaliplatin combination resulted in a more potent inhibition of outgrowth of KM12L4 cell metastases to the liver reducing the number of liver metastases by 6-fold and reducing the tumor burden in the liver by 3-fold when compared to PBS-treated group. This can be attributed by the capability of lunasin and oxaliplatin to reduce expression of proliferating cell nuclear antigen in liver-tumor tissue as measured by immunohistochemical staining. The results of this research for the first time demonstrated the anti-colon cancer potential of lunasin isolated from defatted soybean flour which might contribute to the chemopreventive effect of soybean in CRC as seen in different epidemiological studies. In conclusion, lunasin isolated from defatted soybean flour mediated colon carcinogenesis by inducing apoptosis and preventing outgrowth of metastasis. We suggest that the results of this research serve as a basis for further study on the chemopreventive effect of lunasin against CRC and a possible adjuvant role for lunasin in therapy of patients with metastatic CRC.

Tratamento térmico do titânio e suas consequências sobre as propriedades físico-químicas e de biocompatibilidade

The titanium and titanium alloys are widely used as biomaterial in biomedical device and so research have been developed aiming to improve and/or better to understand interaction biomaterial/biological environment. The process for manufacturing of this titanium implants usually involves a series of thermal and mechanical processes which have consequence on the final product. The heat treatments are usually used to obtain different properties for each application. In order to understand the influence of these treatments on the biological response of the surface, it was done, in this work, different heat treatments in titanium and analyzed their influence on the morphology, adhesion and proliferation of the pre-osteoblastic cells (MC3T3-E1). For such heat-treated titanium disks were characterized by optical microscopy, contact angle, surface energy, roughness, microhardness, X-ray diffraction and scanning through the techniques (BSE, EDS and EBSD). For the analysis of biological response were tested by MTT proliferation, adhesion by crystal violet and β1 integrin expression by flow cytometry. It was found that the presence of a microstructure very orderly, defined by a chemical attack, cells tend to stretch in the same direction of orientation of the material microstructure. When this order does not happen, the most important factor influencing cell proliferation is the residual stress, indicated by the hardness of the material. This way the disks with the highest level state of residual stress also showed increased cell proliferation

Augmentation de l’expression de la chaine α1 de la laminine 111, un potentiel traitement pour la Dystrophie musculaire de Duchenne

La protéine hétérotrimérique laminine-111 permet le lien entre la matrice-extracellulaire et l’intégrine α7β1 du sarcolemme, remplaçant ainsi dans les muscles dystrophiques, des liens normalement assurés par le complexe de la dystrophine. L’injection de laminine-111 dans des souris mdx a permis, entre autre, l’augmentation de l’expression de l’intégrine α7β1, d’empêcher les bris du sarcolemme lors de la contraction musculaire, de restaurer un niveau normal de la créatine kinase sérique, ainsi que d’augmenter la résistance et la force dans les muscles déficients en dystrophine. Ces résultats suggèrent que l’augmentation de la laminine-111 est un potentiel traitement pour la DMD. Les chaines β1 et γ1 de la laminine sont déjà exprimées dans le muscle humain adulte, mais la chaine α1 de la laminine (Lamα1) est exprimée uniquement pendant le stade très précoce 16 cellules de l’embryogenèse. Nous avons donc développé une méthode alternative à l’injection répétée de Laminine-111 en induisant l’expression endogène du gène LAMA1, afin de reformer le complexe trimérique α1β1γ1, la laminine 111. Ceci a été réalisé avec une technologie récente, le système CRISPR/Cas9, dont la Cas9 a été désactivée (dCas9) puis couplée à un domaine d’activation de la transcription, le VP160 (dCas9-VP160). L’utilisation d’un ou plusieurs ARN guides (ARNg) a permis de cibler le promoteur du gène LAMA1. L’ARNm de Lamα1 (qRT-PCR) ainsi que la protéine (immunohistochimie et immunobuvardage) n’ont pas été détecté dans le contrôle négatif, des myoblastes murins (C2C12). Cependant, une expression significative a été observée dans ces myoblastes transfectés avec des plasmides codant pour dCas9-VP160 et un ARNg. L’analyse protéique in vivo, dans des muscles de souris électroporés avec le même plasmide, a démontré une forte augmentation de la chaine α1 de la laminine. Des augmentations plus importantes de l’ARNm de Lamα1 ont été observées en utilisant 2 ARNg, suggérant un effet synergique. L’augmentation de l’expression de Lamα1 par le système de CRISPR/Cas9 devrait être étudiée d’avantage afin de vérifier si cette stratégie pourrait s’avérer efficace dans des cas de myopathies.

Innovative therapeutic approaches for the atrophic Age-related Macular Degeneration (“dry” AMD)

Age related macular degeneration (AMD) is a major concern regarding blindness in the world. In western countries, where visual alterations due to minor pathologies as cataract and uncorrected refractive errors are easily resolved, AMD represent the main cause of blindness. Of the two existing forms of the disease, while the neovascular is more aggressive and progress quickly, geographic atrophy is the one still lacking an appropriate therapy. My PhD program was focused on investigating AMD features, trying to understand if some approaches I tested could be able to provide some suggestion about potential future therapies on “dry” AMD. In my research I developed three main projects. The most important part of the work regards the study of integrins and their fundamental role in cell adhesion in a context of interaction between retinal pigmented epithelium (RPE) and immune cells. I investigated how co-culture of these different cell lines can lead to simulate an inflammatory state inducing cell signaling, cytokine production and cell death. The use of integrin antagonists developed in our laboratory, showed how these effects can be reverted. A secondary approach regards the use of antioxidants and their role in epigenetic modifications in ARPE-19 cells to investigate how these compounds might exert their well-known protective role on AMD. Commonly used antioxidants as Lutein and Quercetin do not induce clear epigenetic modifications through histone H3 acetylation indicating only a limited involvement.

Harnessing the power of Drosophila model to obtain new insights on MYC and ABCC1 cellular functions: from neuroblastoma to autism spectrum disorder

MYCN amplification is a genetic hallmark of the childhood tumour neuroblastoma. MYCN-MAX dimers activate the expression of genes promoting cell proliferation. Moreover, MYCN seems to transcriptionally repress cell differentiation even in absence of MAX. We adopted the Drosophila eye as model to investigate the effect of high MYC to MAX expression ratio on cells. We found that dMyc overexpression in eye cell precursors inhibits cell differentiation and induces the ectopic expression of Antennapedia (the wing Hox gene). The further increase of MYC/MAX ratio results in an eye-to-wing homeotic transformation. Notably, dMyc overexpression phenotype is suppressed by low levels of transcriptional co-repressors and MYCN associates to the promoter of Deformed (the eye Hox gene) in proximity to repressive sites. Hence, we envisage that, in presence of high MYC/MAX ratio, the “free MYC” might inhibit Deformed expression, leading in turn to the ectopic expression of Antennapedia. This suggests that MYCN might reinforce its oncogenic role by affecting the physiological homeotic program. Furthermore, poor neuroblastoma outcome associates with a high level of the MRP1 protein, encoded by the ABCC1 gene and known to promote drug efflux in cancer cells. Intriguingly, this correlation persists regardless of chemotherapy and ABCC1 overexpression enhances neuroblastoma cell motility. We found that Drosophila dMRP contributes to the adhesion between the dorsal and ventral epithelia of the wing by inhibiting the function of integrin receptors, well known regulators of cell adhesion and migration. Besides, integrins play a crucial role during synaptogenesis and ABCC1 locus is included in a copy number variable region of the human genome (16p13.11) involved in neuropsychiatric diseases. Interestingly, we found that the altered dMRP/MRP1 level affects nervous system development in Drosophila embryos. These preliminary findings point out novel ABCC1 functions possibly defining ABCC1 contribution to neuroblastoma and to the pathogenicity of 16p13.11 deletion/duplication

Multifarious tumor-oriented small molecules: development of synthetic methodologies and application for diagnostic platforms

Cancer represents one of the most relevant and widespread diseases in the modern age. In this context, integrin receptors are important for the interactions of cells with extracellular matrix and for the development of both inflammation and carcinogenic phenomena. There are many tricks to improve the bioactivity and receptor selectivity of exogenous ligands; one of these is to integrate the amino acid sequence into a cyclic peptide to restrict its conformational space. Another approach is to develop small peptidomimetic molecules in order to enhance the molecular stability and open the way to versatile synthetic strategies. Starting from isoxazoline-based peptidomimetic molecules we recently reported, in this thesis we are going to present the synthesis of new integrin ligands obtained by modifying or introducing appendages on already reported structures. Initially, we are going to introduce the synthesis of linear and cyclic α-dehydro-β-amino acids as scaffolds for the preparation of bioactive peptidomimetics. Subsequently, we are going to present the construction of small molecule ligands (SMLs) based delivery systems performed starting from a polyfunctionalised isoxazoline scaffold, whose potency towards αVβ3 and α5β1 integrins has already been established by our research group. In the light of these results and due to the necessity to understand the behaviour of a single enantiomer of the isoxazoline-based compounds, the research group decided to synthesise the enantiopure heterocycle using a 1,3-dipolar cycloaddiction approach. Subsequently, we are going to introduce the synthesis of a Reporting Drug Delivery System composed by a carrier, a first spacer, a linker, a self-immolative system, a second spacer and a latent fluorophore. The last part of this work will describe the results obtained during the internship abroad in Prof. Aggarwal’s laboratory at the University of Bristol. The project was focused on the Mycapolyol A synthesis.

β-lactams from their structural features to their biological applications

β-lactam compounds represent an important class of four-membered cyclic amides (azetidin-2-ones) thanks to their valuable and varied biological activities. The presence of a β-lactam ring in a series of bioactive molecules targeting different proteins, allows us to consider the azetidin-2-one a privileged structure. The constrained four-membered cyclic amide could easily undergo ring-opening reactions by nucleophilic residues in the active sites of enzymes and this is the mechanism suggested for antibacterial activity; moreover, the rigid core structure could favour and actually enhance directional noncovalent bonding for an effective ligand−receptor recognition. Nowadays monocyclic β-lactams are known as anticancer, antidiabetic, anti-tubercular, anti-inflammatory agents and as ligands of integrin receptors. In order to consider different facets of 4-azetidin-2-ones, this theis will be divided into two sections: the first one will be dedicated to the design, synthesis and characterization of biological active β-lactams (new β-lactam based integrin ligands and their different applications and novel N-thio-alkyl substituted azetidinones for the treatment of Tuberculosis); the second one instead, will be based on two projects which consider two different proprieties of β-lactams: stereochemistry, evaluated by biocatalytic methods and reactivity at C-4 position. In the first case we want to obtain enantiomerically pure 4-acetoxy-2-azetidinone, useful for synthesis of stereo-chemically defined bioactive β-lactams, while in the second case we want to study in which conditions the nucleophilic substitutions occur. A final section will be instead dedicated to the research project conducted in Philochem AG, Zurich, under the supervision of Prof. Dario Neri and Dr. Samuele Cazzamalli, based on the study of new cleavable disulfide linkers for small molecule drug conjugates targeting Fibroblast activation protein (FAP).