Studio immunologico per l'individuazione di pazienti trapiantati per cirrosi HBV relata che potrebbero sospedere la terapia con immunoglobine specifiche (HBIG)

Hepatitis B virus (HBV) recurrence after orthotopic liver transplantation (OLT) is associated with poor graft and patient survival. Treatment with HBV-specific immunoglobulins (HBIG) in combination with nucleos(t)ide analogs is effective in preventing HBV reinfection of the graft and improving OLT outcome. However, the combined immunoprophylaxis has several limitations, mainly the high cost and the lack of standard schedules about duration. So far, the identification of markers able to predict the reinfection risk is needed. Although the HBV-specific immune response is believed to play an essential role in disease outcome, HBV-specific cellular immunity in viral containment in OLT recipients is unclear. To test whether or not OLT recipients maintain robust HBV-specific cellular immunity, the cellular immune response against viral nucleocapsid and envelope-protein of HBV was assessed in 15 OLT recipients and 27 individuals with chronic and 24 subjects with self-limited HBV infection, respectively. The data demonstrate that OLT recipients mounted fewer but stronger clusters of differentiation (CD)8 T cell responses than subjects with self-limited HBV infection and showed a preferential targeting of the nucleocapsid antigen. This focused response pattern was similar to responses seen in chronically infected subjects with undetectable viremia, but significantly different from patients who presented with elevated HBV viremia and who mounted mainly immune responses against the envelope protein. In conclusion, virus-specific CD4 T cell–mediated responses were only detected in subjects with self-limited HBV infection. Thus, the profile of the cellular immunity against HBV was in immune suppressed patients similar to subjects with chronic HBV infection with suppressed HBV-DNA.

Risposta Immunitaria Epatite B specifica in pazienti affetti da Epatocarcinoma

Hepatitis B x protein (HBx) is a non structural, multifunctional protein of hepatitis B virus (HBV) that modulates a variety of host processes.Due to its transcriptional activity,able to alter the expression of growth-control genes,it has been implicated in hepatocarcinogenesis.Increased expression of HBx has been reported on the liver tissue samples of hepatocellular carcinoma (HCC),and a specific anti-HBx immune response can be detected in the peripheral blood of patients with chronic HBV.However,its role and entity has not been yet clarified.Thus,we performed a cross-sectional analysis of anti-HBx specific T cell response in HBV-infected patients in different stage of disease.A total of 70 HBV-infected subjects were evaluated:15 affected by chronic hepatitis (CH-median age 45 yrs),14 by cirrhosis (median age 55 yrs),11 with dysplastic nodules (median age 64 yrs),15 with HCC (median age 60 yrs),15 with IC(median age 53 yrs).All patients were infected by virus genotype D with different levels of HBV viremia and most of them (91%) were HBeAb positive.The HBx-specific T cell response was evaluated by anti-Interferon (IFN)-gamma Elispot assay after in vitro stimulation of peripheral blood mononuclear cells,using 20 overlapping synthetic peptides covering all HBx protein sequence.HBx-specific IFN-gamma-secreting T cells were found in 6 out of 15 patients with chronic hepatitis (40%), 3 out of 14 cirrhosis (21%), in 5 out of 11 cirrhosis with macronodules (54%), and in 10 out of 15 HCC patients (67%). The number of responding patients resulted significantly higher in HCC than IC (p=0.02) and cirrhosis (p=0.02). Central specific region of the protein x was preferentially recognize,between 86-88 peptides. HBx response does not correlate with clinical feature disease(AFP,MELD).The HBx specific T-cell response seems to increase accordingly to progression of the disease, being increased in subjects with dysplastic or neoplastic lesions and can represent an additional tool to monitor the patients at high risk to develop HCC

Studio del ruolo della Protein chinasi B/Akt nella migrazione di Cellule Staminali Mesenchimali umane

Le cellule staminali/stromali mesenchimali umane (hMSC) sono attualmente applicate in diversi studi clinici e la loro efficacia è spesso legata alla loro capacità di raggiungere il sito d’interesse. Poco si sa sul loro comportamento migratorio e i meccanismi che ne sono alla base. Perciò, questo studio è stato progettato per comprendere il comportamento migratorio delle hMSC e il coinvolgimento di Akt, nota anche come proteina chinasi B. L’espressione e la fosforilazione della proteinchinasi Akt è stata studiata mediante Western blotting. Oltre al time-lapse in vivo imaging, il movimento cellulare è stato monitorato sia mediante saggi tridimensionali, con l’uso di transwell, che mediante saggi bidimensionali, attraverso la tecnica del wound healing. Le prove effettuate hanno rivelato che le hMSC hanno una buona capacità migratoria. E’ stato osservato che la proteinchinasi B/Akt ha elevati livelli basali di fosforilazione in queste cellule. Inoltre, la caratterizzazione delle principali proteine di regolazione ed effettrici, a monte e a valle di Akt, ha permesso di concludere che la cascata di reazioni della via di segnale anche nelle hMSC segue un andamento canonico. Specifici inibitori farmacologici sono stati utilizzati per determinare il potenziale meccanismo coinvolto nella migrazione cellulare e nell'invasione. L’inibizione della via PI3K/Akt determina una significativa riduzione della migrazione. L’utilizzo di inibitori farmacologici specifici per le singole isoforme di Akt ha permesso di discriminare il ruolo diverso di Akt1 e Akt2 nella migrazione delle hMSC. E’ stato infatti dimostrato che l'inattivazione di Akt2, ma non quella di Akt1, diminuisce significativamente la migrazione cellulare. Nel complesso i risultati ottenuti indicano che l'attivazione di Akt2 svolge un ruolo critico nella migrazione della hMSC; ulteriori studi sono necessari per approfondire la comprensione del fenomeno. La dimostrazione che l’isoforma Akt2 è necessaria per la chemiotassi diretta delle hMSC, rende questa chinasi un potenziale bersaglio farmacologico per modulare la loro migrazione.