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.

Selezione e processazione di cellule Natural Killer da donatore aploidentico "KIR-ligand" incompatibile per l'immunoterapia adottiva di pazienti con Leucemia Acuta Mieloblastica ad alto rischio

The effector function of natural killer (NK) cells is regulated by activating and inhibitory receptors, termed killer immunoglobulin-like receptors (KIRs). In haploidentical T-cell depleted transplantation the donor/recipient KIR mismatch significantly impacts on NK-mediated tumor cell killing, particularly in acute myeloid leukaemia (AML). Thirty-four high risk AML patients entered a phase I-II study of adoptive NK-cell based immunotherapy and were screened for the availability of one haploidentical KIR ligand mismatched donor. Thirteen of them resulted as having one suitable donor. NK cells were enriched from steady-state leukaphereses by using a double-step immunomagnetic separation system, consisting in depletion of CD3+ T cells followed by positive selection of CD56+ NK cells. CD56+ cells were enriched from 7,70% (1,26-11,70) to 93,50% (66,41-99,20) (median recovery 53,05% (30,97-72,85), median T-depletion 3,03 log (2,15-4,52) viability >92%) and their citotoxic activity was inalterate. All patients (4 progressions, 1 partial remission and 8 complete remissions) received NK cell infusion which was preceeded by immunosuppressive chemotherapy (fludarabine and cyclophosphamide) and followed by interleukin 2 injections. The median number of reinfused NK cells was 2,74x10(e)6/kg(1,11-5,00) and contamining CD3+ T cells were always less than 1x10(e)5/kg. The procedure was well-tolerated and no significant toxicity, including GvHD, related to NK cell infusion was observed. The donor NK cells were demonstrated in 5/10 patients. Among the 8 patients in complete remission 5 patients are stable after 18, 15, 4, 2 months of follow-up. Three other patients relapsed after 2 and 7 months. The patient in partial remission obtained a complete remission, which lasted for 6 months. The 4 patients with active/progressive disease showed the persistence of disease. This clinical observation may be correlated with in vitro studies, indicating that AML cells are capable to induce NK cell apoptosis in a dose-depend manner. In summery, a two-step enrichment of CD56+ NK cells allows the collection of a suitable number of target cells to be used as adoptive immunotherapy in AML patients. Infusion of NK cells is feasible and safe and adoptively transferred NK cells can be detected after infusion.

Pathogenesis of cell toxicity by plant toxins

Ribosome inactivating proteins (RIPs) are a family of plant proteins that depurinate the major rRNA, inhibiting the protein synthesis. RIPs are divided into type 1, single chain proteins with enzymatic activity, and type 2 RIPs (toxic and non-toxic), with the enzymatic chain linked to a binding chain. RIPs have been used alone or as toxic component of immunotoxins for experimental therapy of many diseases. The knowledge of cell death pathway(s) induced by RIPs could be useful for clarifying the mechanisms induced by RIPs and for designing specific immunotherapy. The topic of the current study was (i) the determination of the amino acid sequence of the type 2 RIP stenodactylin. The comparison with other RIPs showed that the A chain is related to other toxic type 2 RIPs. whereas the B chain is more related to the non-toxic type 2 RIPs. This latter result is surprising because stenodactylin is actually the most toxic type 2 RIP known; (ii) the study of the cell death mechanisms induced by stenodactylin in human neuroblastoma cells (NB100). High doses of stenodactylin can activate the effector caspases (perhaps through the DNA damage and/or intrinsic/extrinsic pathways) and also cause ROS generation. Low doses cause a caspase-dependent apoptosis, mainly via extrinsic pathway. Moreover, the activation of caspases precedes the inhibition of protein synthesis; (iii) the investigation of the cell death pathway induced by the non-toxic type 2 RIPs ebulin l and nigrin b. These RIPs demonstrated high enzymatic activity in a cell-free system, but they lack high cytotoxicity. These preliminary studies demonstrate that the cell death mechanism induced by the two non-toxic RIPs is partially caspase-dependent apoptosis, but other mechanisms seem to be involved

Studio dei polimorfismi genici degli antigeni minori di istocompatibilità e GvHD/GvL nel trapianto allogenico di cellule staminali emopoietiche

L'outcome dei pazienti sottoposti a trapianto allogenico di cellule staminali emopoietiche è fortemente influenzato da graft versus leukemia (GvL) e graft versus host disease (GvHD) che sono mediate, almeno in parte, dagli antigeni minori di istocompatibilità (mHAgs). In letteratura sono stati identificati 26 mHAgs che sono stati correlati a GvHD/GvL con risultati incompleti e in alcuni casi contrastanti; inoltre manca una metodica che sia in grado di genotipizzare contemporaneamente un pannello così ampio. Il lavoro è stato finalizzato alla preparazione di un protocollo di laboratorio che permetta di studiare in modo efficace i 26 mHAgs identificati, per poi correlarli con GvHD/GvL all’interno di uno specifico gruppo di trapiantati. Utilizzando la metodica IPlex Gold Mass Array Sequenom e tecniche di biologia molecolare convenzionale sono stati genotipizzati 26 antigeni minori di istocompatibilità per 46 coppie full-matched. Tutti i pazienti inclusi nel progetto di studio erano stati sottoposti a trapianto allogenico di cellule staminali emopoietiche da donatore familiare o volontario full-compatibile per leucemia mieloide cronica (n=46) o leucemia acuta linfoblastica Philadelphia positiva (LAL-Ph+, n=24). Il progetto ha confermato l'efficienza (98.6%) e la fattibilità delle metodiche proposte. Dal lavoro è inoltre emerso che, le differenze tra donatore e ricevente a libello mHAgs ACC-1, ACC-4, ACC-5, LB-MTHFD1-1Q, UGT2B17, DPH1, LRH1 potrebbero essere fattori predittivi di GvHD (p<0.05). La seconda evidenza è legata a un trend secondo cui il mismatch per LB-ADIR1 protegge dalla recidiva di malattia, in particolare nei confronti della LAL-Ph+ che è scarsamente responsiva all'allo-immunoterapia. Questo lavoro pilota, la cui casistica deve quindi essere ampliata, ha dimostrato l’efficacia della genotipizzazione con IPlex Gold Sequenom e l’elevato potenziale degli mHAgs sia come fattori predittivi di GvHD che come driver di GvL.

L'immunoterapia in associazione alla terapia standard per i pazienti con Mieloma Multiplo di nuova diagnosi candidabili alla chemioterapia ad alte dosi

Lo scenario terapeutico del Mieloma Multiplo (MM) si è ampiamente evoluto nelle ultime decadi con l’introduzione di un numero sempre maggiore di combinazioni di nuovi farmaci molto efficaci. In tal contesto, spicca Daratumumab (dara), grazie ai suoi dati di efficacia e di sicurezza dimostrati sia nel setting del paziente ricaduto/refrattario che di nuova diagnosi. Lo scopo del presente studio è quello di aggiungere dati circa la combinazione di dara con la terapia standard nel contesto di un programma trapiantologico per pazienti di nuova diagnosi candidabili alla chemioterapia ad alte dosi, con un particolare focus sull’impatto dell’anticorpo monoclonale sulla raccolta delle cellule staminali (PBSC). Sono stati analizzati 41 pazienti trattati presso il nostro centro nell’ambito di due studi clinici (EMN17 e EMN18). Con un follow-up mediano pari a 19 mesi, dara aggiunto alla terapia standard ha dimostrato un’ottima efficacia, in termini di risposte profonde e sopravvivenza libera da malattia, ed un buon profilo di sicurezza, senza tossicità aggiuntive o inaspettate. Inoltre, nello studio registrativo CASSIOPEIA dara non ha avuto un impatto negativo sulla raccolta delle PBSC; infatti, nei pazienti sottoposti a dara il numero il numero mediano di PBSC raccolte è risultato inferiore e questi hanno necessitato più frequentemente di Plerixafor, senza, tuttavia, modifiche nell’iter trapiantologico rispetto al gruppo di controllo. Analogamente, nella nostra analisi i pazienti del gruppo dara hanno utilizzato maggiormente Plerixafor ed è emerso come questi possano beneficiare da un dosaggio maggiore di Ciclofosfamide mobilizzante (3 g/mq rispetto 2 g/mq). Durante lo svolgimento del presente progetto dara è stato approvato in pratica clinica prima in Europa (2020) e poi in Italia (2021). Il presente studio ha confermato come dara aggiunto ad un regime di induzione Bortezomib-based rappresenti un nuovo standard of care per i pazienti con MM di nuova diagnosi eleggibili alla chemioterapia ad alte dosi.

Harnessing the cellular and molecular complexity of high-risk neuroblastoma to investigate novel potential treatment approaches

Neuroblastoma (NB) is the most common type of tumor in infants and the third most common cancer in children. Current clinical practices employ a variety of strategies for NB treatment, ranging from standard chemotherapy to immunotherapy. Due to a lack of knowledge about the molecular mechanisms underlying the disease's onset, aggressive phenotype, and therapeutic resistance, these approaches are ineffective in the majority of instances. MYCN amplification is one of the most well-known genetic alterations associated with high risk in NB. The following work is divided into three sections and aims to provide new insights into the biology of NB and hypothetical new treatment strategies. First, we identified RUNX1T1 as a key gene involved in MYCN-driven NB onset in a transgenic mouse model. Our results suggested that that RUNX1T1 may recruit the Co-REST complex on target genes that regulate the differentiation of NB cells and that the interaction with RCOR3 is essential. Second, we provided insights into the role of MYCN in dysregulating the CDK/RB/E2F pathway controlling the G1/S transition of the cell cycle. We found that RB is dispensable in regulating MYCN amplified NB's cell cycle, providing the rationale for using cyclin/CDK complexes inhibitors in NBs carrying MYCN amplification and relatively high levels of RB1 expression. Third, we generated an M13 bacteriophage platform to target GD2-expressing cells in NB. Here, we generated a recombinant M13 phage capable of binding GD2-expressing cells selectively (M13GD2). Our results showed that M13GD2 chemically conjugated with the photosensitizer ECB04 preserves the retargeting capability, inducing cell death even at picomolar concentrations upon light irradiation. These results provided proof of concept for M13 phage employment in targeted photodynamic therapy for NB, an exciting strategy to overcome resistance to classical immunotherapy.

“Clinical and biological role of adjuvant dendritic cells vaccination in newly glioblastoma patients”

Background. Glioblastoma (GBM) is the most common primary tumor of central nervous system and it has a poor prognosis. Standard first line treatment, which includes surgery followed by adjuvant radio-chemotherapy,produces only modest benefits to survival. The interest for immunotherapy in this field derives from the development of new drugs and effective therapies as immune-check points inhibitors, adoptive T-cell approaches or dendritic cell (DC) based vaccines or a combinations of these. GBM is described as a typical “immune-deserted” cancer exhibiting a number of systemic and environmental immunosuppressive factors. Considering the role of microenvironment, and above all the lower tumor load and depletion of immunosuppressive cells in GBM, our hypothesis is that DC vaccine may induce an immune response. Main aims and study design. The main aim of this project is to study the role of immune system in GBM, including identification of potential prognostic and predictive markers of outcome and response to dendritic cell vaccine. Firstly, we performed a retrospective analysis on blood samples. Then, we analyzed the immuno-component in tissues samples of enrolled patients; and compared that with blood results. Then, the last part of the project is based on a prospective clinical trial on patients enrolled in DC-based vaccination produced at IRST Cell Factory and actually used for patients with melanoma and other tumors. The enrollment is still ongoing. Expected results. The project will i) develop an immune-panel of prognostic and predictive markers to help clinicians to improve the therapeutic strategy for GBM patients; ii) provide preliminary results on the effectiveness of immunotherapy on GBM patients.

Understanding molecular mechanisms of resistance to immune checkpoint inhibitors in advanced non-small cell lung cancer (NSCLC)

Immune checkpoint inhibitors (ICI) that target PD-1/PD-L1 have recently emerged as an integral component of front-line treatment in metastatic NSCLC patients. The PD-1 inhibitor pembrolizumab is approved as monotherapy for advanced NSCLC with a PD-L1 tumor proportion score (TPS) of ≥1% and in combination with platinum doublet chemotherapy regardless of PD-L1 expression level. However, responses to either regimen occur in only a minority of cases, and PD-L1 TPS is limited as a biomarker in predicting whether a cancer will respond to PD-1 inhibition alone or would be more likely to benefit from PD-1 inhibition plus chemotherapy. Additional biomarkers of immunotherapy efficacy, such as tumor mutational burden (TMB), have not been incorporated into routine clinical practice for treatment selection. The identification of patients who have the greatest likelihood of responding to immunotherapies is critical for guiding treatment decisions. IN addition, early indicators of response could theoretically prevent patients from staying on an ineffective therapy where they might experience complications due to disease progression or develop toxicities from unnecessary exposure to an inactive agent. The aim of this research project is to investigate the clinicopathologic and molecular determinant of response/resistance to the currently available immune checkpoint inhibitors, in order to identify therapeutic vulnerabilities that can be exploited to improve the clinical outcomes of patients with advanced NSCLC.

Bright-field multiplex immunohistochemistry for tumor. Microenvironment evaluation in mucosal melanoma of the head and neck region: technical aspects, results, and correlation with clinicopathologic features and molecular landscape

Mucosal melanoma of the head and neck region (MM-H&N) is a rare disease, characterized by a poor prognosis and limited therapeutic strategies, especially regarding targeted therapy (lower rate of targetable mutations compared to cutaneous melanoma) and immunotherapy (lack of diagnostic tools able to predict the response). Meanwhile, bright-field multiplex immunohistochemistry (BF-mIHC) is emerging as a promising tool for characterizing tumor microenvironment (TME) and predicting response to immunotherapy in several tumors, including melanoma. This PhD project aims to develop a BF-mIHC protocol to evaluate the TME in MM-H&N, analyze the correlation between immune markers/immune profiles and MM-H&N features (clinicopathologic and molecular), and find new biomarkers useful for prognostic-therapeutic stratification of these patients. Specific aims are: (I) describe the clinicopathological features of MM-H&N; (II) analyze the molecular status of MM-H&N and correlate it with the clinicopathological features; (III) analyze the molecular status of multiple specimens from the same patient to verify whether molecular heterogeneity of MM-H&N could affect the results with relevant prognostic-therapeutic implications; (IV) develop a BF-mIHC protocol to study TME in MM-H&N; (V) analyze the correlation between immune markers/immune profiles and MM-H&N features (clinicopathologic and molecular) to test whether BF-mIHC could be a promising tool for prognostic-therapeutic characterization of these patients.

Omission of axillary clearance in patients with early breast cancer and positive sentinel node biopsy treated with conservative surgery: application of the ACOSOG Z011 trial in clinical practice

Background: Axillary lymph node dissection (ALND) in presence of sentinel lymph node (SLN) metastases has been the standard in breast cancer (BC) patients for many years. Today, after the publication of the ACOSOG Z0011 trial, ALND is a procedure restricted to a dwindling group of patients with a clearly metastatic axilla. Material and methods: This was a prospective observational trial involving two Italian Breast Units: Policlinico di Sant’Orsola and San Raffaele hospital. Objective was to evaluate that the omission of ALND in patients with cT1-2 cN0 BC undergoing breast conserving surgery (BCS) and histological finding of metastases in 1 or 2 SLN is not associated with a worse prognostic outcome. Primary endpoint was overall survival (OS). Secondary endpoints were disease free survival (DFS) and locoregional recurrence. All BC patients treated between the 1st of November 2020 and 31st of July 2023 with cT1-2 cN0 BC, preoperative negative axillary ultrasound and 1 or 2 metastatic SLN treated with sentinel node biopsy (SLNB) alone entered the study. Results: 795 cT1-2 cN0 BC patients underwent BCS and SLNB. Ninety patients were included. Median age was 60 (52-68) years. Seventy-five patients (83%) had T1 tumor and 15 (17%) T2. Median tumor size was 16 mm (11-19). The median SLN removed was 2 (1-3). Eighty-one patients had 1 positive SLN (90%), while 9 had 2 SLN metastasis (10%). 39 (43%) micrometastases were identified and 51 macrometastasis (57%). All patients underwent radiotherapy. Seventeen (19%) performed adjuvant chemotherapy. Two received immunotherapy with trastuzumab and pertuzumab. Endocrine therapy was given to 84 (93%). At a median follow-up of 19 months (IQR 13-23) OS and DFS were 100%. No loco-regional recurrence was seen. Conclusion: The preliminary results of our study confirm that omitting ALND in patients meeting Z011 criteria is oncologically safe and should be the standard of care.

The RAS-Lung project: implementing blood and tissue genotyping in KRAS-Positive non-small cell lung cancer treatment

Background: The frontline management of non-oncogene addicted non-small cell lung cancer (NSCLC) involves immunotherapy (ICI) alone or combined with chemotherapy (CT-ICI). As therapeutic options expand, refining NSCLC genotyping gains paramount importance. The dynamic landscape of KRAS-positive NSCLC presents a spectrum of treatment options, including ICI, targeted therapy, and combination strategies currently under investigation. Methods: The two-year RASLUNG project, featuring both retrospective and prospective cohorts, aimed to analyze the predictive and prognostic impact of KRAS mutations on tumor tissue and circulating DNA (ctDNA). Secondary objectives included assessing the roles of co-mutations and longitudinal changes in KRAS mutant copies concerning treatment response and survival outcomes. An external validation study confirmed the prognostic or predictive significance of co-mutations. Results: In the prospective cohort (n=24), patients with liver metastases exhibited significantly elevated ctDNA levels(p=0.01), while those with >3 metastatic sites showed increased Allele Frequency (AF) (P=0.002). Median overall survival (OS) was 7.5 months, progression-free survival (PFS) was 4.0 months, and the objective response rate (ORR) was 33.3%. Higher AF correlated with an increased risk of death (HR 1.04, p = 0.03), though not progression. Notably, a reduction in plasma DNA levels was significantly associated with objective response(p=0.01). In the retrospective cohort, KRAS and STK11 mutations co-occurred in 14/21 patients (p=0.053). STK11 mutations were independently detrimental to OS (HR 1.97, p=0.025) after adjusting for various factors. KRAS tissue AF did not correlate with OS or PFS. Within the validation dataset, STK11 mutations were significantly associated with an increased risk of death in univariate (HR 2.01, p<0.001) and multivariate models (HR 1.66, p=0.001) after adjustments. Conclusion: The RAS-Lung Project, employing innovative genotyping techniques, underscores the significance of comprehensive NSCLC genotyping. Tailored next-generation sequencing (NGS) and ctDNA monitoring may offer potential benefits in navigating the evolving landscape of KRAS-positive NSCLC treatment.