Association of donor IFNL4 genotype and non-relapse mortality after unrelated donor myeloablative haematopoietic stem-cell transplantation for acute leukaemia: a retrospective cohort study

Evidence for a sex-dependent effect modification in the association between IFN-λ DNA polymorphisms and expression of IFN-λ and interferon-stimulated genes in human PBMCs

Human interferon (IFN) lambda (IFNL, IFN-L or IFN-λ) locus has several functional genetic variants but their role in regulating in vivo gene expression, and whether they associate with antiviral states in healthy individuals, is not clear. In this study, we recruited ∼550 healthy individuals belonging to both sexes, genotyped them for several IFNL genetic variants and measured, by qPCR, the expression of IFNL2/3, IFNL4 and four IFN-stimulated genes (ISGs) (MX1, OAS1, ISG15 and RSAD2) from their peripheral blood mononuclear cells (PBMC) both before and after stimulation with a viral mimic, poly I: C. We also measured secreted levels of several cytokines including IFN-λ1 and IFN-λ3 in poly I:C stimulated PBMCs. We found that males secrete higher levels of IFN-λs than females. The IFNL3/4 genetic variants significantly associated with secreted levels of both IFN-λ1 and IFN-λ3 in opposite directions, only in males. While the IFNL3/4 variants significantly associated with ISG expression either in basal or poly I:C induced or in both states, the direction of effect was opposite for the two sexes, suggesting that sex was a strong effect modifier. We did not see this trend in the association of ISG expression with the IFNL1 polymorphism, rs7247086, whose association with ISG expression and secreted IFN-λ3 levels was seen in females but not in males. Further, expression of several genes was associated with the IFN-λ4 activity-modifying variant rs117648444. However, we neither saw any strong correlation between levels of IFN-λ1/3 and ISG expression, nor did we see any strong evidence of IFNL4 expression that could be responsible for the association between ISG expression and IFNL genetic variants. These results suggest that there are complex interactions involving gender, IFN-λs, IFN-λ genetic variants and antiviral states in humans.

Interferon lambda 4 is a gut antimicrobial protein

To withstand complex microbial challenges, the mammalian gut largely depends on the secretion of diverse antimicrobial proteins. Type III interferons (IFNλs) are ordinarily considered inducible antiviral cytokines involved in intestinal immunity. Unlike other IFNλs, we found that newly identified IFNλ4 is an intestinal antibacterial protein. Large amounts of natural IFNλ4 are present in the secretory layer of the intestinal tracts of healthy piglets, which suggests that IFNλ4 is in direct physiological contact with microbial pathogens. We also identified two biochemical functions of mammalian IFNλ4, the induction of bacterial agglutination and direct microbial killing, which are not functions of the other IFNλs. Further mechanistic investigations revealed that after binding to the carbohydrate fraction of lipopolysaccharide, mammalian IFNλ4 self-assembles into bacteria-surrounding nanoparticles that agglutinate bacteria, and that its unique cationic amphiphilic molecular structure facilitates the destruction of bacterial membranes. Our data reveal features of IFNλ4 distinct from those of previously reported IFNλs and suggest that noncanonical IFNλ4 is deeply involved in intestinal immunity, beyond simply cytokine signaling.

IFNL4 Genotypes and Risk of Childhood Burkitt Lymphoma in East Africa

Interferon lambda 4 (IFN-λ4) is a novel type-III interferon that can be expressed only by carriers of the genetic variant rs368234815-dG within the first exon of the IFNL4 gene. Genetic inability to produce IFN-λ4 (in carriers of the rs368234815-TT/TT genotype) has been associated with improved clearance of hepatitis C virus (HCV) infection. The IFN-λ4-expressing rs368234815-dG allele (IFNL4-dG) is most common (up to 78%) in West sub-Saharan Africa (SSA), compared to 35% of Europeans and 5% of individuals from East Asia. The negative selection of IFNL4-dG outside Africa suggests that its retention in African populations could provide survival benefits, most likely in children. To explore this hypothesis, we conducted a comprehensive association analysis between IFNL4 genotypes and the risk of childhood Burkitt lymphoma (BL), a lethal infection-associated cancer most common in SSA. We used genetic, epidemiologic, and clinical data for 4,038 children from the Epidemiology of Burkitt Lymphoma in East African Children and Minors (EMBLEM) and the Malawi Infections and Childhood Cancer case-control studies. Generalized linear mixed models fit with the logit link controlling for age, sex, country, P. falciparum infection status, population stratification, and relatedness found no significant association between BL risk and 3 coding genetic variants within IFNL4 (rs368234815, rs117648444, and rs142981501) and their combinations. Because BL occurs in children 6-9 years of age who survived early childhood infections, our results suggest that additional studies should explore the associations of IFNL4-dG allele in younger children. This comprehensive study represents an important baseline in defining the health effects of IFN-λ4 in African populations.

A Novel Inactive Isoform with a Restored Reading Frame Is Expressed from the Human Interferon Lambda 4 TT Allele at rs368234815

The TT allele of the dinucleotide variant rs368234815 (TT/ΔG) abolishes the open reading frame (ORF) created by the ancestral ΔG allele of the human interferon lambda 4 (IFNL4) gene, thus preventing the expression of a functional IFN-λ4 protein. While probing the expression of IFN-λ4 in human peripheral blood mononuclear cells (PBMCs), using a monoclonal antibody that binds to the C-terminus of IFN-λ4, surprisingly, we observed that PBMCs obtained from TT/TT genotype individuals could also express proteins that reacted with the IFN-λ4-specific antibody. We confirmed that these products did not emanate from the IFNL4 paralog, IF1IC2 gene. Using cell lines and overexpressing human IFNL4 gene constructs, we obtained evidence from Western blots to show that the TT allele could express a protein that reacted with the IFN-λ4 C-terminal-specific antibody. It had a molecular weight similar if not identical to IFN-λ4 expressed from the ΔG allele. Furthermore, the same start and stop codons used by the ΔG allele were used to express the novel isoform from the TT allele suggesting that a restoration of the ORF had occurred in the body of the mRNA. However, this TT allele isoform did not induce any IFN-stimulated gene expression. Our data do not support a ribosomal frameshift that leads to the expression of this new isoform, implying that an alternate splicing event may be responsible. An N-terminal-specific monoclonal antibody did not react with the novel protein isoform suggesting that the alternate splicing event likely occurs beyond exon 2. The new isoform is glycosylated similar to the functional IFN-λ4 and is also secreted. Furthermore, we show that the ΔG allele can also potentially express a similarly frameshifted isoform. The splicing event that leads to the generation of these novel isoforms and their functional significance remains to be elucidated.

The role of IFNL4 in liver inflammation and progression of fibrosis

The discovery that genetic variation within the interferon lambda locus has a profound effect on the outcome of hepatitis C virus (HCV) treatment and spontaneous clearance of HCV is one of the great triumphs of genomic medicine. Subsequently, the IFNL4 gene was discovered and proposed as the causal gene underlying this association. However, there has been a lively debate within the field concerning the causality, which has been further complicated by a change in naming. This review summarizes the genetic data available for the IFNL3/IFNl4 loci and provides an in-depth discussion of causality. We also discuss a new series of interesting data suggesting that the genetic variation at the IFNL4 loci influences the evolution of the HCV virus and the implication this relationship between our genetic makeup and virus evolution has upon our understanding of the IFNL4 system. Finally, new data support an influence of the IFNL4 gene upon liver inflammation and fibrosis that is independent of etiology, thereby linking the IFNL4 gene to some of the major liver diseases of today.

Intracellular Accumulation of IFN-λ4 Induces ER Stress and Results in Anti-Cirrhotic but Pro-HCV Effects

IFNL3/IFNL4 polymorphisms are inversely associated with the risk of chronic hepatitis C virus (HCV) infection and cirrhosis, two major risk factors for developing hepatocellular carcinoma (HCC). To further explore these inverse associations and their molecular underpinnings, we analyzed IFNL3/IFNL4 polymorphisms represented by the IFNL4 genotype (presence of rs368234815-dG or rs12979860-T alleles) in HCV patients: 2969 from Japan and 2931 from Taiwan. IFNL4 genotype was associated with an increased risk of HCV-related HCC (OR=1.28, 95%CI=1.07-1.52, P=0.0058) in the general population of Japanese patients, but not in Taiwanese patients who achieved treatment-induced viral clearance. IFNL4 genotype was also associated with a decreased risk of cirrhosis (OR=0.66, 95%CI=0.46-0.93, P=0.018, in Taiwanese patients). We then engineered HepG2 cells to inducibly express IFN-λ4 in the presence or absence of interferon lambda receptor 1 (IFNLR1). Induction of IFN-λ4 resulted in its intracellular accumulation, mainly in lysosomes and late endosomes, and increased ER stress, leading to apoptosis and reduced proliferation. We identified the very-low-density lipoprotein receptor (VLDLR), which facilitates HCV entry into hepatocytes, as a transcript induced by IFN-λ4 but not IFN-λ3. Our results suggest that the molecular mechanisms underlying the anti-cirrhotic but pro-HCV associations observed for IFNL3/IFNL4 polymorphisms are, at least in part, contributed by intracellular accumulation of IFN-λ4 causing ER stress in hepatic cells.

Interfering With Inflammation: Heterogeneous Effects of Interferons in Graft-Versus-Host Disease of the Gastrointestinal Tract and Inflammatory Bowel Disease

The intestine can be the target of several immunologically mediated diseases, including graft-versus-host disease (GVHD) and inflammatory bowel disease (IBD). GVHD is a life-threatening complication that occurs after allogeneic hematopoietic stem cell transplantation. Involvement of the gastrointestinal tract is associated with a particularly high mortality. GVHD development starts with the recognition of allo-antigens in the recipient by the donor immune system, which elicits immune-mediated damage of otherwise healthy tissues. IBD describes a group of immunologically mediated chronic inflammatory diseases of the intestine. Several aspects, including genetic predisposition and immune dysregulation, are responsible for the development of IBD, with Crohn’s disease and ulcerative colitis being the two most common variants. GVHD and IBD share multiple key features of their onset and development, including intestinal tissue damage and loss of intestinal barrier function. A further common feature in the pathophysiology of both diseases is the involvement of cytokines such as type I and II interferons (IFNs), amongst others. IFNs are a family of protein mediators produced as a part of the inflammatory response, typically to pathogens or malignant cells. Diverse, and partially paradoxical, effects have been described for IFNs in GVHD and IBD. This review summarizes current knowledge on the role of type I, II and III IFNs, including basic concepts and controversies about their functions in the context of GVHD and IBD. In addition, therapeutic options, research developments and remaining open questions are addressed.

IFN-λ4 is associated with increased risk and earlier occurrence of several common infections in African children

Genetic polymorphisms within the IFNL3/IFNL4 genomic region, which encodes type III interferons, have been strongly associated with clearance of hepatitis C virus. We hypothesized that type III interferons might be important for the immune response to other pathogens as well. In a cohort of 914 Malian children, we genotyped functional variants IFNL4-rs368234815, IFNL4-rs117648444, and IFNL3-rs4803217 and analyzed episodes of malaria, gastrointestinal, and respiratory infections recorded at 30,626 clinic visits from birth up to 5 years of age. Compared to children with the rs368234815-TT/TT genotype (IFN-λ4-Null), rs368234815-dG allele was most strongly associated with an earlier time-to-first episode of gastrointestinal infections (p = 0.003). The risk of experiencing an infection episode during the follow-up was also significantly increased with rs368234815-dG allele, with OR = 1.53, 95%CI (1.13-2.07), p = 0.005 for gastrointestinal infections and OR = 1.30, 95%CI (1.02-1.65), p = 0.033 for malaria. All the associations for the moderately linked rs4803217 (r² = 0.78 in this set) were weaker and lost significance after adjusting for rs368234815. We also analyzed all outcomes in relation to IFN-λ4-P70S groups. Our results implicate IFN-λ4 and not IFN-λ3 as the primary functional cause of genetic associations with increased overall risk and younger age at first clinical episodes but not with recurrence or intensity of several common pediatric infections.