Role of caveolin-1 in the proliferation of solid tumours in vitro

Caveolin-1 (Cav-1), the essential structural constituent of caveolae, which are flask-shaped invaginations of the plasma membrane, has been found to play a key role in the modulation of cell proliferation and cancer development. It seems to act as an oncosuppressor or a promoter of growth, depending on the histotype, stage and grade of each tumour. The aim of this study was to analyze the effects of Caveolin-1 gene silencing on the proliferation of human lung cancer and osteosarcoma in vitro. Our data show that Cav-1 silencing blocks the growth in both metastatic lung cancer cell lines analyzed, suggesting a proliferation promoting action of the protein in these cells. A marked decrease of phospho-Akt, phospho-ERK, STAT3, cyclin D1, CDK4 and consequently of phospho-Rb expression was evident in the cells treated with Cav-1 siRNA. With regards to osteosarcoma, we demonstrated that the suppression of Cav-1 results in the blocking of MG-63 and in the slowing down of HOS proliferation, suggesting a role for Cav-1 as a promoter of tumour growth in these cell lines. A marked decrease of phospho-Akt, cyclin E, CDK2 and phospho-Rb and an increase of p21 expression levels were evident in the cells treated with Cav-1 siRNA. Our results suggest two new cell cycle inhibiting pathways, mediated by Cav-1 knock-down, and provide new insights into the molecular mechanisms underlying the tumour-promoting role of Cav-1 in lung cancer and osteosarcoma. In this work we also investigated the role of estrogens in lung cancer and the functional cross-talk between Cav-1 and estrogens/estrogen receptors in it. Our results show that 17β-estradiol induces proliferation either in RAL or in SCLC-R1 cells and that both cell lines are sensitive to 4-OHT antiproliferative effect. The sensitivity to estrogen stimulation seems to be gender- and/or histological type-independent in metastatic lung cancer in vitro.

Design, synthesis and biological evaluation of substituted naphthalene diimides as anticancer agents

It has been proved that naphthalene diimide (NDI) derivatives display anticancer properties as intercalators and G-quadruplex-binding ligands, leading to DNA damage, senescence and down-regulation of oncogene expression. This thesis deals with the design and synthesis of disubstituted and tetrasubstituted NDI derivatives endowed with anticancer activity, interacting with DNA together with other targets implicated in cancer development. Disubstituted NDI compounds have been designed with the aim to provide potential multitarget directed ligands (MTDLs), in order to create molecules able to simultaneously interact with some of the different targets involved in this pathology. The most active compound, displayed antiproliferative activity in submicromolar range, especially against colon and prostate cancer cell lines, the ability to bind duplex and quadruplex DNA, to inhibit Taq polymerase and telomerase, to trigger caspase activation by a possible oxidative mechanism, to downregulate ERK 2 protein and to inhibit ERKs phosphorylation, without acting directly on microtubules and tubuline. Tetrasubstituted NDI compounds have been designed as G-quadruplex-binding ligands endowed with anticancer activity. In order to improve the cellular uptake of the lead compound, the N-methylpiperazine moiety have been replaced with different aromatic systems and methoxypropyl groups. The most interesting compound was 1d, which was able to interact with the G-quadruplexes both telomeric and in HSP90 promoter region, and it has been co-crystallized with the human telomeric G-quadruplex, to directly verify its ability to bind this kind of structure, and also to investigate its binding mode. All the morpholino substituted compounds show antiproliferative activity in submicromolar values mainly in pancreatic and lung cancer cell lines, and they show an improved biological profile in comparison with that of the lead compound. In conclusion, both these studies, may represent a promising starting point for the development of new interesting molecules useful for the treatment of cancer, underlining the versatility of the NDI scaffold.

Ruolo dei recettori tirosinchinasici in oncologia animale

Disregolazioni dei recettori tirosinchinasici (RTK) sono di frequente riscontro nei tumori dell’uomo e in molti casi sono indicatori biologici che permettono di definire in maniera più accurata la prognosi dei pazienti. Possono rappresentare inoltre marker predittivi per la risposta a terapie antitumorali con farmaci a bersaglio molecolare. Numerosi inibitori tirosinchinasici (TKI) sono attualmente in corso di studio o già disponibili per l’utilizzo in oncologia umana, e molti di questi hanno dimostrato una significativa efficacia utilizzati singolarmente o in combinazione a terapie convenzionali. Studi recenti indicano che un quadro analogo di disregolazione dei recettori tirosinchinasici è presente anche nelle neoplasie dei piccoli animali, e ne suggeriscono in molti casi un’implicazione prognostica. Gli inibitori tirosinchinasi sono da poco entrati nell’arena dell’oncologia veterinaria, ma i primi risultati lasciano supporre che siano destinati ad essere integrati definitivamente nei protocolli terapeutici standard. La tesi consiste in una parte introduttiva in cui sono trattate le principali funzioni biologiche dei recettori tirosinchinasici, la loro struttura e il loro ruolo nell’oncogenesi e nella progressione tumorale in medicina umana e veterinaria. Si affrontano inoltre le principali metodiche di laboratorio per l’analisi molecolare in oncologia e i meccanismi d’azione dei farmaci inibitori tirosinchinasici, con un cenno ai prodotti maggiormente utilizzati e alle loro indicazioni. Segue la presentazione e la discussione dei risultati di quattro studi relativi alla valutazione delle disregolazioni del recettore tirosinchinasico Kit (espressione aberrante e mutazioni genomiche) nel mastocitoma cutaneo del gatto e del recettore del fattore di crescita epidermico (EGFR) nel carcinoma squamocellulare cutaneo del gatto e nei tumori polmonari primitivi del cane, con particolare attenzione al loro ruolo prognostico.

Molecular target therapy and immunotherapy of rare lung tumors

Lung cancer is an heterogeneous disease, with 1-2% of rare histology. New molecular profiling technologies, such as next generation sequencing (NGS), haverevolutionized the assessment of molecular alteration in clinical practice. We analyzed a cohort of 1408 NSCLC-A patients treated at the Sant'Orsola- Malpighi University Hospital from 2019 to 2021. This analysis was performed using the oncomine focus thermo fischer panel. Of them, 410 (29%) had rare alteration (RET 3%, NTRK 0,2%,FGFR1 2%, MET exon14 skipping 3%, BRAF V600 4%, ALK fusion EGFR exon 20 2%) and 36 (2%)had a uncommon mutation. We enrolled 7 RET- rearranged patients in CRETA and J2G-MC-JZJC clinical trials assessing respectively unselective and selective RET-inhibitors , another 7 patients tested positive for the BRAF V6006 mutation and have been enrolled in the Array clinical trial assessing a novel combination of anti-BRAF and anti-mek agents . Other molecular alterations found are KRAS (Gly12Cys), FGFR1-4 mutation, MET skipping ex14 mutations, respectively eligible for other ongoing open studies such as Amgen 20190009 comparing efficacy of sotorasib vs docetaxel, Fight-207 assessing activity of pemigatinib and CINC280J12201 assessing activity of the novel met inhibitor capmatinib. In 2018 we joined the CHANCE clinical trial,a multicenter study evaluating the efficacy and safety of atezolizumab in patients withrare lung cancer histologies where and 14 patients have been so far enrolled in the Bologna site. Our studies underline the need of tailored approach to NSCLC patients and our results showed that precision medicine is feasible and is an effective approach to cancer treatment.