Antonello Amendola

A Transient Breach in the Epithelial Barrier Leads to Regulatory T-Cell Generation and Resistance to Experimental Colitis

BACKGROUND & AIMS Previous studies have indicated that a defective epithelial barrier leads to inflammation of the underlying lamina propria. Nevertheless, it is likely that physiologic breaks in the barrier must occur for homeostatic regulatory T cells to develop. We determined the effect of agents that disrupt epithelial tight junctions (ethanol and AT1002, a Vibrio cholerae zonula occludens toxin hexapeptide) on regulatory T-cell induction and resistance to induction of colitis by trinitrobenzene sulfonic acid (TNBS). METHODS The effects of ethanol and AT1002 on colon immune function were evaluated by their capacity to induce direct phenotypic or functional changes in effector and regulatory cell populations and their indirect effect on the development of TNBS-induced colitis. The basis of regulatory cell development was evaluated with in vitro studies of isolated dendritic cell populations. The role of innate immunity was evaluated by in vivo gene silencing studies utilizing Toll-like receptor (TLR)-2-specific small interfering RNA (siRNA). RESULTS Both ethanol and AT1002 induced persistent latency-associated peptide-positive CD4(+) regulatory T cells that, as shown in adoptive transfer studies, render mice resistant to the induction of TNBS colitis. The development of these cells requires the presence of an intact microflora and the activity of CD11c(+) dendritic cells. Their induction is also influenced by innate immune factors operating through TLR-2, because attenuation of TLR-2 signaling by in vivo TLR-2 siRNA administration prevents their development. CONCLUSIONS A mild and/or transient breach in epithelial barrier function leads to dominant regulatory T-cell responses that protect the mucosa from inflammation.

Intestinal microflora and immunoregulation

Immune homeostasis at mucosal level results from controlled response to intestinal luminal antigens. Recent insights into the nature of inflammatory bowel diseases, derived mainly from studies of experimental models of colonic inflammation, strongly suggest that they can result from a loss of immune tolerance to antigens in the bacterial microflora. Investigations of the regulatory mechanisms operating at the mucosal level suggest that regulatory cells reactive to the intestinal microflora might play a role in cross-reactive protection toward different antigens. Expansion of microflora-reactive regulatory cells by probiotic administration is able to protect from experimental colitis. Characterization of regulatory cells in response to normal commensal flora, the basis of their development and the role of innate immunity in this process might contribute to the understanding of the development of inflammatory bowel diseases.

Nod2 deficiency is associated with an increased mucosal immunoregulatory response to commensal microorganisms

On the basis of previous studies demonstrating that a breach of the colonic epithelial barrier is associated with a microbiota-dependent increase in lamina propria (LP) regulatory cells, we investigated if the lack of spontaneous intestinal inflammation observed in nucleotide-binding oligomerization domain 2 (Nod2)−/− mice was due to enhanced intestinal regulatory function. We found that the LP CD4+ T-cell population of Nod2−/− mice contains an increased percentage of CD4+ regulatory T cells bearing transforming growth factor -β/latency peptide (LP CD4+LAP (latency-associated peptide) + T cells) both under baseline conditions and following an intentional breach of the colonic barrier induced by ethanol administration. In addition, we found that Nod2−/− mice manifest decreased severity of 2,4,6-trinitrobenzene sulfonic acid (TNBS)-colitis and that TNBS-colitis in Nod2−/− or Nod2+/+ mice is ameliorated by adoptive transfer of LP cells from ethanol-treated mice before, but not after, depletion of LAP+ T cells. This increased regulatory T-cell response in Nod2−/− mice could explain why NOD2 polymorphisms in humans are not in themselves sufficient to establish inflammatory lesions.

Detection of a chikungunya outbreak in Central Italy, August to September 2017

An autochthonous chikungunya outbreak is ongoing near Anzio, a coastal town in the province of Rome. The virus isolated from one patient and mosquitoes lacks the A226V mutation and belongs to an East Central South African strain. As of 20 September, 86 cases are laboratory-confirmed. The outbreak proximity to the capital, its late summer occurrence, and diagnostic delays, are favouring transmission. Vector control, enhanced surveillance and restricted blood donations are being implemented in affected areas.

Lamina Propria CD4+LAP+ Regulatory T Cells Are Increased in Active Ulcerative Colitis but Show Increased IL-17 Expression and Reduced Suppressor Activity

BACKGROUND A CD4+CD25- regulatory T cell population expressing the surface TGF-β in its latent form LAP+ [latency associated peptide] cells was proved to be protective in experimental colitis and to be suppressive of human peripheral blood [PB] T proliferation. We investigated the frequency and function of lamina propria [LP] CD4+LAP+ T cells in inflammatory bowel disease [IBD] patients. METHODS Specimens from patients undergoing colonoscopy or bowel resection for IBD and colonic cancer were used as source of lamina propria mononuclear cells [LPMC]. The ulcerative colitis [UC] group was divided according to endoscopic activity evaluated with modified Baron Score. IL-17, IFN-γ, IL-10, LAP, and Foxp3 expression in CD3+CD8- [CD4] or CD3+/CD4+ gated cell population was assessed by immunofluorescence. The ability of FACS-sorted LP CD3+CD8-[CD4] LAP+CD25- to inhibit stimulated autologous PB CD3+CD8-[CD4] LAP- CD25- cells proliferation was assessed. RESULTS LP CD4LAP+ cells were significantly increased, when compared with controls, in active UC patients and not in Crohns disease patients. The majority of LP CD4+LAP+ cells were Foxp3-. The percentage of IL-17+ cells in LP CD3+CD8-[CD4] LAP+ cells was significantly higher in active UC patients when compared with controls. LP CD3+CD8-[CD4]LAP+CD25- isolated from UC patients showed reduced or no ability to inhibit autologous PB CD3+CD8-[CD4]LAP-CD25- cell proliferation when compared with controls. Removal of IL-17+ cells from LP CD3+CD8-[CD4] LAP+ cells increases their suppressive ability. CONCLUSIONS The percentage of LP CD4LAP+ cells is increased in active UC, showing reduced suppressor activity due to their increased proportion of intracellular IL-17 expression.

Vector competence of Italian Aedes albopictus populations for the chikungunya virus (E1-226V)

Background Chikungunya virus (CHIKV) is an emerging arbovirus, belonging to the Togaviridae family, Alphavirus genus, transmitted by Aedes spp. mosquitoes. Since 2007, two different CHIKV strains (E1-226A and E1-226V) have been responsible for outbreaks in European countries, including Italy, sustained by Ae. albopictus mosquitoes. Findings In this study, we assessed the susceptibility to the CHIKV E1-226V, strain responsible for the Italian 2007 outbreak, of eight Ae. albopictus populations collected in Northern, Central, Southern, and Island Italy, by experimental infections. Vector competence was evaluated by estimating infection, dissemination, and transmission rates (IR, DR, TR), through detection of the virus in the bodies, legs plus wings, and saliva, respectively. Additionally, vertical transmission was evaluated by the detection of the virus in the offspring. The results of our study demonstrated that the Italian populations of Ae. albopictus tested were susceptible to CHIKV infection, and can disseminate the virus outside the midgut barrier with high values of IR and DR. Viral infectious RNA was detected in the saliva of three populations from Central, Southern, and Island Italy, also tested for TR and population transmission rate (PTR) values. No progeny of the first and second gonotrophic cycle were positive for CHIKV. Conclusions This study strongly confirms the role of Ae. albopictus as a potential CHIKV vector in Italy. This may represent a threat, especially considering both the high density of this species, which is widespread throughout the country, and the increasing number of cases of imported arboviruses.