Secondary hemophagocytic lymphohistiocytosis (sHLH) is a life-threatening hyperinflammatory syndrome triggered by infections, malignancies, or rheumatologic conditions. Effective management requires identifying and treating the acute trigger while addressing underlying factors and calming the inflammatory response. Like sepsis, sHLH represents a cytokine storm resulting from diverse triggering events rather than a standalone diagnosis. This review synthesizes current literature and the authors' clinical experience to provide a comprehensive framework for diagnosing and managing sHLH, emphasizing the importance of tailored, trigger-specific interventions. Emerging diagnostic tools and therapeutic strategies and improved mechanistic understanding of sHLH hold promise for improving outcomes in this challenging condition.

Hemophagocytic lymphohistiocytosis (HLH) is a severe hyperinflammatory syndrome characterized by uncontrolled immune activation. While traditionally associated with genetic mutations affecting cytotoxic function, recent advances have highlighted the prevalence and significance of HLH in adults, particularly in hematologic malignancies. This review focuses on malignancy-associated HLH (M-HLH), a complex and challenging condition with a poor prognosis. The review explores four main subtypes of M-HLH: (1) HLH as the initial presentation of malignancy, (2) Chemotherapy Associated HLH, (3) Cytokine Release Syndrome (CRS) Associated HLH-like Syndrome, and (4) immune effector cell-associated HLH-like syndrome. Diagnosis is complicated by overlap with cancer symptoms and limitations of existing criteria. The Optimized HLH Inflammatory (OHI) index shows promise in early identification of hyperinflammation in new-onset hematologic malignancies. Treatment approaches must balance controlling hyperinflammation with addressing the underlying malignancy. Emerging therapies, including targeted agents like anakinra, ruxolitinib, and emapalumab, offer new management possibilities. This review examines the current understanding of M-HLH pathophysiology, diagnostic approaches, and treatment strategies for each subtype. It underscores the critical need for further research to unravel underlying mechanisms and establish evidence-based treatment protocols. Given the complexity of M-HLH, international collaborative efforts are essential to advance knowledge and improve patient outcomes.

Macrophage activation syndrome (MAS) is a state of immune hyperactivation that can result in life-threatening multisystem end-organ dysfunction. Often termed a "cytokine storm," MAS occurs among the rheumatic diseases most typically in Still's disease but also in systemic lupus erythematosus and Kawasaki disease. MAS can also accompany infection, malignancy, and inborn errors of immunity. This review provides a practical, evidence-based guide to the understanding, recognition, and management of MAS in children and adults, with a primary focus on MAS complicating Still's disease.

Overt immune activation by viral infections can lead to cytokine storm syndromes, such as hemophagocytic lymphohistiocytosis (HLH) and macrophage activation syndrome (MAS).

We aimed to compare the immune response to different viral pathogens to understand the connection between infections and cytokine storm syndromes.

We recruited children who sought care at the emergency department with fever for ≥3 days. We performed immune profiling using Olink proximity extension assay and flow cytometry. We compared the findings with cases of HLH, MAS, Kawasaki disease (KD), and multisystem inflammatory syndrome in children (MIS-C).

We enrolled 352 febrile patients and studied 110 cases of confirmed common viral infections. We found that Epstein-Barr virus (EBV) uniquely triggered high levels of multiple cytokines (IL-18, IL-27, TNF, FLT3 ligand, and lymphotoxin alpha) and IFN-γ-induced chemokines (CXCL9/10/11 and CCL19). These patterns are similar to the hyperinflammatory response associated with HLH/MAS but are less consistent with the findings in KD and MIS-C. Flow cytometry analysis revealed that CD38+HLA-DR+ T lymphocytes, which are pathogenic cells responsible for IFN-γ production in HLH/MAS, are vastly expanded in patients with acute EBV infection. Cell sorting identified CD38+HLA-DR+ T cells as atypical lymphocytes that are classically associated with acute EBV infection.

This work broadens our understanding of common viral infections in children and provides an immunologic basis for the link between EBV infection and HLH/MAS.

Macrophage activation syndrome (MAS) is a term that was originally used to describe a hyperinflammatory syndrome that developed in some patients with rheumatologic diseases. It is now clear that MAS and hemophagocytic lymphohistiocytosis (HLH) are defined by the same core pattern of clinical symptoms and share an underlying pathophysiology of impaired cytolytic activity and IFNγ-driven cytokine storm. Given that these disorders are highly related, lessons learned from the management of MAS can provide insights into effective approaches for HLH, particularly the strategy to employ anti-cytokine therapies early in the disease course.

Familial hemophagocytic lymphohistiocytosis (fHLH) comprises a group of autosomal recessive disorders characterized by germline loss-of-function variants that negatively impact lymphocyte cytotoxicity. These disorders exhibit variable clinical presentations, most often in association with severe hyperinflammation. fHLH is diagnosed through clinical and laboratory assessments as well as genetic testing and immunologic assays. In the absence of therapy to control the hyperactive immune system, fHLH is generally fatal. Treatment has historically taken the form of cytotoxic chemotherapy and/or immunosuppressive therapy, although targeted inhibitors of inflammatory cytokines and their downstream signaling are increasingly being utilized. Definitive treatment requires allogeneic hematopoietic cell transplantation.

Hemophagocytic lymphohistiocytosis (HLH) and macrophage activation syndrome (MAS) are potentially fatal cytokine storm syndromes with clinical features including fever, pancytopenia, hepatosplenomegaly, coagulopathy, and progressive multiorgan system dysfunction. Mechanistically, HLH / MAS are driven by persistent activation of lymphoid and myeloid cells, but our understanding of the pathogenic cell populations remains incomplete.

In this Perspectives article, we provide an overview of the biology of HLH / MAS and the critical role of interferon-g in disease pathogenesis. We discuss the recent discovery of cycling lymphocytes in HLH / MAS marked by expression of CD38 and HLA-DR, which are primary producers of IFN-γ. The expansion of cycling lymphocytes correlates with disease activity and helps to distinguish HLH / MAS from clinical mimics. We demonstrate an approach to quantify CD38+HLA-DR+ cycling lymphocytes and evaluate their utility as a diagnostic biomarker for HLH / MAS. Lastly, we discuss the treatment of MAS, including potential therapeutic options to target these pathogenic lymphocytes.

Understanding of biology of cycling lymphocytes in HLH / MAS will facilitate the development of novel therapeutic approaches to overcome these fatal hyperinflammatory disorders.

Cytokine storm syndromes (CSSs), including hemophagocytic lymphohistiocytosis (HLH), are increasingly recognized as hyperinflammatory states leading to multiorgan failure and death. Familial HLH in infancy results from homozygous genetic defects in perforin-mediated cytolysis by CD8 T lymphocytes and natural killer (NK) cells. Later-onset CSSs are often associated with heterozygous defects in familial HLH genes, but genetic etiologies for most are unknown. We identified rare dedicator of cytokinesis 8 (DOCK8) variants in patients with CSS.

We sought to explore the role of CSS patient-derived DOCK8 mutations on cytolytic activity in NK cells and to further study effects of DOCK8 deficiency in murine models of CSSs.

DOCK8 cDNAs from 2 unrelated patients with CSS with different missense mutations were introduced into human NK-92 cells by foamy virus transduction. NK-cell degranulation (CD107a), cytolytic activity against K562 target cells, and IFN-γ production were explored by flow cytometry. A third patient with CSS with DOCK8 mRNA splice acceptor site variant was explored by exon trapping. Dock8-/- mice were assessed for features of CSS (weight loss, splenomegaly, hepatic inflammation, cytopenias, and IFN-γ levels) on challenge with lymphocytic choriomeningitis virus and excess IL-18.

Both patient DOCK8 missense mutations decreased cytolytic function in NK cells in a partial dominant-negative fashion in vitro. The patient DOCK8 splice variant disrupted mRNA splicing in vitro. Lymphocytic choriomeningitis virus infection promoted CSS in Dock8-/- mice and interacted with excess IL-18, limiting T-cell numbers while promoting CD8 T-cell hyperactivation.

Mutations in DOCK8 may contribute to CSS-like hyperinflammatory states by altering cytolytic function in a threshold model of disease.

Hemophagocytic lymphohistiocytosis (HLH) is a severe disorder with poor clinical outcomes. Use of emapalumab, an IFN-γ inhibitor, enables primary HLH control in over 85 % of affected children. However, data on emapalumab use for Epstein-Barr virus-associated HLH (EBV-HLH) are limited. This report presents the cases of three patients with EBV-HLH, highlighting the successful integration of low-dose emapalumab in combination with chemotherapy as a novel therapeutic approach for patients diagnosed with EBV-HLH. This regimen resulted in rapid disease symptom control and hematological parameter improvement and facilitated successful stem cell transplantation. This report highlights the potential of low-dose emapalumab combined with chemotherapy as an effective bridging therapy to allogenic hematopoietic stem cell transplantation in EBV-HLH patients.

Laboratory-based immunology evaluation is essential to the diagnostic workup of patients with complex immune disorders, and is as essential, if not more so, depending on the context, as genetic testing, because it enables identification of aberrant pathways amenable to therapeutic intervention and clarifies variants of uncertain significance. There have been considerable advances in techniques and instrumentation in the clinical laboratory in the past 2 decades, although there are still "miles to go." One of the goals of the clinical laboratory is to ensure advanced diagnostic testing is widely accessible to physicians and thus patients, through reference laboratories, particularly in the context of academic medical centers. This ensures a greater likelihood of translating research discoveries into the diagnostic laboratory, on the basis of patient care needs rather than a sole emphasis on commercial utility. However, these advances are under threat from burdensome regulatory oversight that can compromise, at best, and curtail, at worst, the ability to rapidly diagnose rare immune disorders and ensure delivery of precision medicine. This review discusses the clinical utility of diagnostic immunology tools, beyond cellular immunophenotyping of lymphocyte subsets, which can be used in conjunction with clinical and other laboratory data for diagnosis as well as monitoring of therapeutic response in patients with genetic immunologic diseases.

Thrombin promotes the proliferation and function of CD8+ T cells. To test if thrombin prevents exhaustion and sustains antiviral T cell activity during chronic viral infection, we depleted the thrombin-precursor prothrombin to 10% of normal levels in mice prior to infection with the clone 13 strain of lymphocytic choriomeningitis virus. Unexpectedly, prothrombin insufficiency resulted in 100% mortality after infection that was prevented by depletion of CD8+ T cells, suggesting that reduced availability of prothrombin enhances virus-induced immunopathology. Yet, the number, function, and apparent exhaustion of virus-specific T cells were measurably unaffected by prothrombin depletion. Histological analysis of the lung, heart, liver, kidney, spleen, intestine, and brain did not reveal any evidence of hemorrhage or increased tissue damage in mice with low levels of prothrombin that could explain mortality. Viral loads were also similar in infected mice regardless of prothrombin levels. Instead, infection of prothrombin-depleted mice resulted in a severe, T cell-dependent anemia associated with increased hemolysis. Thus, thrombin plays an unexpected protective role in preventing hemolytic anemia during virus infection, with potential implications for patients who are using direct thrombin inhibitors as an anticoagulant therapy.

Lymphocytic choriomeningitis virus (LCMV) is a zoonotic pathogen primarily transmitted by rodents. Recently, LCMV has been detected in ticks from northeastern China; however, the pathogenicity of this virus in murine models remains to be elucidated.

Here, we examined the tick-derived LCMV strain JX14 by inoculating BALB/c mice with 3.5 × 105 pfu of virus. The mice infected with LCMV displayed clinical manifestations including unkempt fur, anorexia, depression, and oliguria, which subsequently resolved by 10 days post infection (dpi) leading to survival of the infection. During the early phase of infection, low viral titers were detected in throat and anal swabs. The excreted virions demonstrated proliferation in Vero cells and were capable of inducing infection in mock-infected mice. Viral RNA was detected in the blood and organs, with detectable levels persisting for up to six months specifically in the heart. A total of 16 amino acid substitutions were identified in the L, Z, and GPC proteins between the original JX14 strain and the strain obtained after six months of infection in BALB/c mice. Pathological lesions were identified in most organs within 5 dpi except for the kidneys and testicles. Interferon gamma (IFN-γ) level was significantly elevated during the early stage of infection and returned to baseline levels within 10 days.

This study furnishes significant insights into the pathogenic traits of the tick-derived LCMV strain JX14, thereby potentially providing a valuable in vivo research model for examining the immunological responses elicited by chronic viral infections.

Primary hemophagocytic lymphohistiocytosis (HLH) is a life-threatening hyperinflammatory syndrome caused by inborn errors of cytotoxicity. Patients with biallelic PRF1 null mutations (encoding perforin) usually develop excessive immune cell activation, hypercytokinemia, and life-threatening immunopathology in the first 6 months of life, often without an apparent infectious trigger. In contrast, perforin-deficient (PKO) mice only develop HLH after systemic infection with lymphocytic choriomeningitis virus (LCMV). We hypothesized that restricted microbe-immune cell interactions due to specific pathogen-free (SPF) housing might explain the need for this specific viral trigger in PKO mice. To investigate the influence of a "wild" microbiome in PKO mice, we fostered PKO newborns with Wildling microbiota ('PKO-Wildlings') and monitored them for signs of HLH. PKO-Wildlings survived long-term without spontaneous disease. Also, systemic infection with vaccinia virus did not reach the threshold of immune activation required to trigger HLH in PKO-Wildlings. Interestingly, after infection with LCMV, PKO-Wildlings developed an altered HLH pattern. This included lower IFN-γ serum levels along with improved IFN-γ-driven anemia, but more elevated levels of IL-17 and increased liver inflammation compared with PKO-SPF mice. Thus, wild microbiota alone is not sufficient to trigger HLH in PKO mice, but host-microbe interactions shape inflammatory cytokine patterns, thereby influencing manifestations of HLH immunopathology.

To compare the clinical and laboratory characteristics of pediatric-onset systemic lupus erythematosus (pSLE), pSLE with macrophage activation syndrome (MAS), and pSLE with recurrent MAS, and to find biomarkers for the differential diagnosis of these diseases.

Demographic, clinical, laboratory and radiological data were analysed for three groups of patients: 18 cases of pSLE with MAS, 48 age- and sex-matched cases of active pSLE without MAS and 40 age- and sex-matched cases of pSLE with inactive disease. One case of a 9-year-old girl with recurrent MAS as the primary manifestation of SLE also was recorded.

IL-10 and IFN-γ levels were significantly higher in pSLE patients with MAS than in pSLE patients without MAS, and were significantly correlated with SLE and MAS laboratory features. Levels of IL-10 > 7.25 pg/ml had a high sensitivity and levels of IFN-γ  > 6.7 pg/ml had a high specificity for predicting MAS in pSLE. Constitutional symptoms were evident in the case of recurrent MAS in pSLE, and traditional immunosuppressive therapies were unable to prevent the next MAS episode.

Compared with pSLE and pSLE-MAS with a single episode, pSLE with recurrent MAS has different clinical manifestations and responses to treatment, requiring intensive studies to elucidate the underlying pathogenic mechanisms. Elevated serum levels of IL-10 and IFN-γ may be correlated with pSLE with MAS and can serve as serum biomarkers for pSLE with MAS.

Cytokine storm syndromes such as hemophagocytic lymphohistiocytosis (HLH), Adult-onset Still's disease (AOSD), and COVID-19 cytokine storm (CCS) are characterized by markedly elevated inflammatory cytokines. However clinical measurement of serum cytokines is not widely available. This study examined the clinical utility of C-reactive protein (CRP) and ferritin, two inexpensive and widely available inflammatory markers, for distinguishing HLH from AOSD and CCS. This single centre retrospective study included 44 secondary HLH patients, 14 AOSD patients, and 13 CCS patients. Baseline CRP and ferritin measured within 72 h of diagnosis and before administration of corticosteroids or other anti-inflammatory therapies were analyzed. The median CRP in HLH patients was lower than AOSD (71 mg/L vs. 172 mg/L, p < 0.001) and CCS (71 mg/L vs. 121 mg/L, p = 0.0095) patients. Serum ferritin levels were lower in CCS compared to HLH (1,386 µg/L vs. 29,019 µg/L, p < 0.001) and AOSD (11,359 µg/L vs. 29,019 µg/L, p = 0.035). A CRP < 130 mg/L when combined with an HScore > 136 improves the specificity of HScore alone for HLH from 85.2 to 96.3%. Adding CRP < 130 mg/L to ferritin > 15,254 µg/L increases specificity for HLH from 88.9 to 100%. This study demonstrates that median CRP is lower in HLH than in AOSD and CCS, and median ferritin is lower in CCS than in HLH or AOSD. This study demonstrates the clinical utility of these widely available inflammatory markers for distinguishing between different cytokine storm syndromes.

Hemophagocytic lymphohistiocytosis (HLH) is a hyperinflammatory disorder driven by interferon gamma (IFN-γ). Emapalumab, an anti-IFN-γ antibody, is approved for the treatment of patients with primary HLH. Hematopoietic stem cell transplantation (HSCT) is required for curing HLH. Reduced-intensity conditioning (RIC) HSCT is associated with improved survival but higher incidences of mixed chimerism and secondary graft failure. To understand the potential impact of emapalumab on post-HSCT outcomes, we conducted a retrospective study of pediatric patients with HLH receiving a first RIC-HSCT at our institution between 2014 and 2022 after treatment for HLH, with or without this agent. Mixed chimerism was defined as <95% donor chimerism and severe mixed chimerism as <25% donor chimerism. Intervention-free survival (IFS) included donor lymphocyte infusion, infusion of donor CD34-selected cells, second HSCT, or death within 5 years after HSCT. Fifty patients met the inclusion criteria; 22 received emapalumab within 21 days before the conditioning regimen, and 28 did not. The use of emapalumab was associated with a markedly lower incidence of mixed chimerism (48% vs 77%; P = .03) and severe mixed chimerism (5% vs 38%; P < .01). IFS was significantly higher in patients receiving emapalumab (73% vs 43%; P = .03). Improved IFS was even more striking in infants aged <12 months, a group at the highest risk for mixed chimerism (75% vs 20%; P < .01). Although overall survival was higher with emapalumab, this difference was not significant (82% vs 71%; P = .39). We show that the use of emapalumab for HLH before HSCT mitigates the risk of mixed chimerism and graft failure after RIC-HSCT.

Hemophagocytic lymphohistiocytosis (HLH) is a rare disease characterized by the uncontrolled activation of the immune system, resulting in a high clinical mortality rate. A 56-year-old Chinese female presented at the emergency room with symptoms including fever, fatigue, nausea, vomiting, cough, shortness of breath, and chest tightness. Laboratory investigations demonstrated decreased levels of white blood cells, hemoglobin, and platelets while interleukin-6 and ferritin exhibited significant elevations. She was subsequently admitted to the hematology department, where she was diagnosed with HLH caused by a Candida infection. Following treatment with antifungal agents, glucocorticoids, antiemetics, diuretics, and hepatoprotective therapy, the patient's condition has shown improvement. However, after being infected with Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV-2), the patient experienced a reactivation of HLH, resulting in a more severe clinical presentation and complications compared to the initial onset. Although the patient's condition improved after the administration of antiviral drugs, etoposide, glucocorticoids, cyclosporin, and intravenous immunoglobulin, this case highlights the possibility of disease reactivation during the recovery phase of HLH. This should raise the attention of medical professionals.

Host immune dysfunction plays a crucial role in the onset, progression, and outcome of hemophagocytic lymphohistiocytosis (HLH). This study aimed to comprehensively evaluate the peripheral immune profiles in patients with newly diagnosed secondary hemophagocytic lymphohistiocytosis (sHLH), and explore their predictive value for patient prognosis. A total of 77 patients with sHLH were enrolled in this study, with 31 of them experiencing mortality. Flow cytometry was used to assess the percentages, absolute numbers, and phenotypes of lymphocyte subsets. Simultaneously, cytokine levels and routine laboratory indicators were also collected. In sHLH patients, lymphocyte subset absolute numbers were significantly impaired, accompanied by T cell hyperactivation, B cell hyperactivation, and increased plasmablast proliferation. Prognostic analysis revealed that lower CD8+ T cell percentages, elevated APTT, IL-6, IL-10 levels, and increased CD4+CD28null T cell proportions were associated with poor patient outcomes. The study demonstrates dysregulation in the counts and phenotypes of lymphocyte subsets in sHLH patients. Several key factors, including IL-6, IL-10, APTT, and various T cell percentages, have potential as prognostic markers and therapeutic targets in sHLH.

Crimean-Congo haemorrhagic fever virus (CCHFV) causes human disease ranging from subclinical to a fatal haemorrhagic syndrome. Determinants of CCHF pathogenesis are largely unknown and animal models that recapitulate human disease are limited. A recently described mouse model uses a monoclonal antibody (mAb 5A3) targeting the interferon (IFN) alpha/beta receptor to suppress type I IFN responses, making animals transiently susceptible to infection. To advance utility of this model, we investigated effects of challenge route, timing of 5A3 delivery, mouse sex and age, and virus strain on clinical course and outcome. C57BL/6J mice received mAb 5A3 -1, 0, or -1/+1 days post-infection (dpi). Subsets were challenged with CCHFV strain Turkey04 or IbAr10200 subcutaneously or intraperitoneally, and serially euthanized 3- and 7-dpi, when meeting euthanasia criteria or at study completion (14 dpi). CCHFV-IbAr10200-infected mice almost uniformly succumbed to infection, whereas CCHFV-Turkey04-infected mice transiently lost weight but survived. These results were consistent regardless of mAb timing or route of challenge. Viral replication and dissemination were comparable between the two strains at 3 dpi. However, in the plasma and livers of non-survivors, expression of proinflammatory cytokines/chemokines that correspond with macrophage activation and recruitment were significantly elevated. Lethal disease was also associated with elevated levels of macrophage activation marker CD163 in plasma. Further, mouse macrophages were more permissive to IbAr1200 infection in vitro, suggesting tropism for these cells may influence pathogenesis. Our data suggest that early inflammation may be a critical determinant of CCHF outcome and therapeutics to control inflammation may be worthwhile targets for future investigation.

Novel host-directed therapies are urgently needed for patients with dengue, particularly those at high risk of developing severe disease. Broad immunosuppression using corticosteroids in unselected patients with dengue has so far been unsuccessful. Patients with hyperinflammation (raised CRP and/or ferritin levels) are at highest risk of poor outcomes in dengue. Anakinra is a licensed, bio-engineered form of the naturally occurring IL-1R antagonist which has shown efficacy in other acute viral-associated hyperinflammatory syndromes.

This is a randomized placebo-controlled phase II trial of anakinra in 160 patients ≥ 12 years old, diagnosed as having dengue with warning signs or severe dengue and the hyperinflammatory syndrome (plasma ferritin >2000 ng/ml). Participants will receive a 4-day course of either anakinra or placebo. The primary endpoint is the efficacy of anakinra measured by the delta mSOFA score* (change in mSOFA score over 4 days after randomization). The accompanying immunological and transcriptomic analyses aim to identify novel mechanisms and pathways that may represent future biomarkers and therapeutic targets.

The observed immunomodulatory benefit of anakinra in acute viral-associated hyperinflammatory syndromes including COVID-19 and auto-immune diseases makes this medication a promising potential treatment for dengue patients with hyperinflammation. This trial will assess the safety and efficacy of anakinra in patients with severe dengue or at high risk of developing life-threatening dengue disease.

ClinicalTrials.gov (NCT05611710).

To analyse the similarity in clinical manifestations and laboratory findings between systemic juvenile idiopathic arthritis (sJIA) and adult-onset Still's disease (AOSD).

Three systematic reviews (SR) were performed. One included cohort studies comparing sJIA versus AOSD that described clinical and biological manifestations with at least 20 patients in each group (SR1). The second identified studies of biomarkers in both diseases and their diagnostic performance (SR2). The last focused on diagnostic biomarkers for macrophage activation syndrome (MAS, SR3). Medline (PubMed), Embase and Cochrane Library were systematically searched. The risk of bias was assessed with an adapted form of the Hoy scale for prevalence studies in SR1 and the Quality Assessment of Diagnostic Accuracy Studies-2 in SR2 and SR3. We performed meta-analyses of proportions for the qualitative descriptors.

Eight studies were included in SR1 (n=1010 participants), 33 in SR2 and 10 in SR3. The pooled prevalence of clinical manifestations did not differ between sJIA and AOSD, except for myalgia, sore throat and weight loss, which were more frequent in AOSD than sJIA because they are likely ascertained incompletely in sJIA, especially in young children. Except for AA amyloidosis, more frequent in sJIA than AOSD, the prevalence of complications did not differ, nor did the prevalence of biological findings. Ferritin, S100 proteins and interleukin-18 (IL-18) were the most frequently used diagnostic biomarkers, with similar diagnostic performance. For MAS diagnosis, novel biomarkers such as IL-18, C-X-C motif ligand 9, adenosine deaminase 2 activity and activated T cells seemed promising.

Our results argue for a continuum between sJIA and AOSD.

CRD42022374240 and CRD42024534021.

Hemophagocytic lymphohistiocytosis (HLH) is a rapidly progressing, life-threatening syndrome characterized by excessive immune activation, often presenting as a complex cytokine storm. This hyperactive immune response can lead to multi-organ failure and systemic damage, resulting in an extremely short survival period if left untreated. Over the past decades, although HLH has garnered increasing attention from researchers, there have been few advancements in its treatment. The cytokine storm plays a crucial role in the treatment of HLH. Investigating the detailed mechanisms behind cytokine storms offers insights into targeted therapeutic approaches, potentially aiding in early intervention and improving the clinical outcome of HLH patients. To date, there is only one targeted therapy, emapalumab targeting interferon-γ, that has gained approval for primary HLH. This review aims to summarize the current treatment advances, emerging targeted therapeutics and underlying mechanisms of HLH, highlighting its newly discovered targets potentially involved in cytokine storms, which are expected to drive the development of novel treatments and offer fresh perspectives for future studies. Besides, multi-targeted combination therapy may be essential for disease control, but further trials are required to determine the optimal treatment mode for HLH.

Secondary hemophagocytic lymphohistiocytosis (sHLH) is a hyperinflammatory syndrome characterized by immune disorders. It is imperative to elucidate the immunophenotypic panorama and the interactions among these cells in patients. Human peripheral blood mononuclear cells were collected from healthy donors and sHLH patients and tested using multicolor flow cytometry. We used FlowSOM to explore and visualize the immunophenotypic characteristics of sHLH. By demonstrating the phenotypes of immune cells, we discovered that sHLH patients had significantly higher levels of CD56+ monocytes, higher levels of myeloid-derived suppressor cells, low-density neutrophil-to-T cell ratio, and higher heterogeneous T cell activation than healthy donors. However, natural killer cell cytotoxicity and function were impaired. We then assessed the correlations among 30 immune cell types and evaluated metabolic analysis. Our findings demonstrated polymorphonuclear myeloid-derived suppressor cells, CD56+ monocytes, and neutrophil-to-T cell ratio were elevated abnormally in sHLH patients, which may indicate an association with immune overactivation and inflammatory response. We are expected to confirm that they are involved in the occurrence of the disease through further in-depth research.

UNC13 family (also known as Munc13) proteins are evolutionarily conserved proteins involved in the rapid and regulated secretion of vesicles, including synaptic vesicles and cytotoxic granules. Fast and regulated secretion at the neuronal and immunological synapses requires multiple steps, from the biogenesis of vesicles to membrane fusion, and a complex array of proteins for each step. Defects at these steps can lead to various genetic disorders. Recent studies have shown multiple roles of UNC13D in the secretion of cytotoxic granules by immune cells. Here, the molecular structure and detailed roles of UNC13D in the biogenesis, tethering, and priming of cytotoxic vesicles and in endoplasmic reticulum are summarized. Moreover, its association with immune diseases, including familial hemophagocytic lymphohistiocytosis type 3, macrophage activation syndrome, juvenile idiopathic arthritis, and autoimmune lymphoproliferative syndrome, is reviewed. Finally, the therapeutic application of CRISPR/Cas9-based gene therapy for genetic diseases is introduced.

The aim of this study was to analyze the clinical significance of cerebrospinal fluid (CSF) cytokines in hemophagocytic lymphohistiocytosis associated with central nervous system (CNS-HLH).

CSF cytokine levels, including interferon (IFN)-γ, soluble CD25 (sCD25), interleukin (IL)-6, IL-10, IL-18, and CXCL9 were measured at disease onset and during the treatment. Five newly diagnosed patients with demyelination disease were enrolled for comparison.

Sixty-five samples from 36 patients (13 in the CNS group and 23 in the non-CNS group) were detected. Levels of CSF IFN-γ, sCD25, IL-10, IL-18, and CXCL9 in the CNS group were higher than those in the non-CNS group ( P =0.038, <0.001, <0.001, 0.005, and <0.001), and levels of CSF sCD25, IL-10, IL-18, and CXCL9 in the CNS group were higher than those in the demyelination group ( P =0.001, 0.008, 0.004, and 0.003). There was no significant difference in IL-6 levels among the 3 groups ( P =0.339). CSF IFN-γ, sCD25, IL-10, IL-18, and CXCL9 could assist in diagnosing CNS-HLH. The diagnostic efficiency of CSF sCD25, IL-10, and CXCL9 was better, with a cutoff value of 154.64, 1.655, and 19.54 pg/mL, respectively. The area under the curve was >0.9, with sensitivity and specificity >80%. Correlation analysis suggested that in the CNS group, IFN-γ levels in CSF and serum correlated positively ( R =0.459, P =0.007), while there was no correlation between CSF CXCL9 and serum IFN-γ ( P =0.915).

CSF IFN-γ, sCD25, IL-10, IL-18, and CXCL9 levels were significantly higher in HLH patients with CNS involvement than those without and could predict HLH patients with CNS involvement. CSF CXCL9 might be a more sensitive biomarker to CNS-HLH than IFN-γ, while CSF IL-6 does not seem to play a vital role.

Juvenile xanthogranuloma (JXG) is primarily limited to the skin, and systemic JXG (sJXG) is rarely reported. Reports of sJXG patients with hemophagocytic lymphohistiocytosis (HLH) are particularly rare. Herein, we conducted a retrospective study of children diagnosed with sJXG in the Hematology Centre of Beijing Children's Hospital from Jan. 2016 to Dec. 2021. The clinical features, laboratory parameters, treatments and outcomes of 17 sJXG patients were investigated, including five complicated with HLH. All sJXG-HLH patients had intermittent fever, rash, hepatosplenomegaly, cytopenia and high levels of soluble CD25, but interferon-γ was almost normal. Patients with sJXG-HLH had a younger diagnosis age (P = 0.035) and were more likely to have skin, liver, and spleen involvement than those without HLH (P = 0.029, P = 0.003, P = 0.003, respectively). Corticosteroids and/or ruxolitinib could be used to control the hyperinflammatory status when HLH was diagnosed. The treatment of sJXG varied, including Langerhans cell histiocytosis (LCH)-based chemotherapy and targeted therapy. The overall response rate of sJXG for first-line and second-line chemotherapy was 50.0% (5/10) and 50% (4/8), respectively. Patients with BRAF V600E mutation showed a response to dabrafenib. There was no significant difference in the overall survival and progression-free survival between sJXG patients without and with HLH (P = 0.12 and P = 0.46, respectively). Therefore, LCH-based chemotherapy could serve as an effective treatment for sJXG patients, and dabrafenib, to some extent, showed efficacy in controlling sJXG in patients with BRAF V600E mutation. The prognosis of sJXG-HLH patients seemed to be comparable to patients without HLH.

Primary hemophagocytic lymphohistiocytosis (HLH) is a life-threatening disorder associated with autosomal recessive variants in genes required for perforin-mediated lymphocyte cytotoxicity. A rapid diagnosis is crucial for successful treatment. Although defective cytotoxic T lymphocyte (CTL) function causes pathogenesis, quantification of natural killer (NK)-cell exocytosis triggered by K562 target cells currently represents a standard diagnostic procedure for primary HLH. We have prospectively evaluated different lymphocyte exocytosis assays in 213 patients referred for evaluation for suspected HLH and related hyperinflammatory syndromes. A total of 138 patients received a molecular diagnosis consistent with primary HLH. Assessment of Fc receptor-triggered NK-cell and T-cell receptor (TCR)-triggered CTL exocytosis displayed higher sensitivity and improved specificity for the diagnosis of primary HLH than routine K562 cell-based assays, with these assays combined providing a sensitivity of 100% and specificity of 98.3%. By comparison, NK-cell exocytosis after K562 target cell stimulation displayed a higher interindividual variability, in part explained by differences in NK-cell differentiation or large functional reductions after shipment. We thus recommend combined analysis of TCR-triggered CTL and Fc receptor-triggered NK-cell exocytosis for the diagnosis of patients with suspected familial HLH or atypical manifestations of congenital defects in lymphocyte exocytosis.

The advent of chimeric antigen receptor T cells (CAR-T) has been a paradigm shift in cancer immunotherapeutics, with remarkable outcomes reported for a growing catalog of malignancies. While CAR-T are highly effective in multiple diseases, salvaging patients who were considered incurable, they have unique toxicities which can be life-threatening. Understanding the biology and risk factors for these toxicities has led to targeted treatment approaches which can mitigate them successfully. The three toxicities of particular interest are cytokine release syndrome (CRS), immune effector cell-associated neurotoxicity syndrome (ICANS), and immune effector cell-associated hemophagocytic lymphohistiocytosis (HLH)-like syndrome (IEC-HS). Each of these is characterized by cytokine storm and hyperinflammation; however, they differ mechanistically with regard to the cytokines and immune cells that drive the pathophysiology. We summarize the current state of the field of CAR-T-associated toxicities, focusing on underlying biology and how this informs toxicity management and prevention. We also highlight several emerging agents showing promise in preclinical models and the clinic. Many of these established and emerging agents do not appear to impact the anti-tumor function of CAR-T, opening the door to additional and wider CAR-T applications.

SYNTAXIN-11 (STX11) is a SNARE protein that mediates the fusion of cytotoxic granules with the plasma membrane at the immunological synapses of CD8 T or NK cells. Autosomal recessive inheritance of deleterious STX11 variants impairs cytotoxic granule exocytosis, causing familial hemophagocytic lymphohistiocytosis type 4 (FHL-4). In several FHL-4 patients, we also observed hypogammaglobulinemia, elevated frequencies of naive B cells, and increased double-negative DN2:DN1 B cell ratios, indicating a hitherto unrecognized role of STX11 in humoral immunity. Detailed analysis of Stx11-deficient mice revealed impaired CD4 T cell help for B cells, associated with disrupted germinal center formation, reduced isotype class switching, and low antibody avidity. Mechanistically, Stx11-/- CD4 T cells exhibit impaired membrane fusion leading to reduced CD107a and CD40L surface mobilization and diminished IL-2 and IL-10 secretion. Our findings highlight a critical role of STX11 in SNARE-mediated membrane trafficking and vesicle exocytosis in CD4 T cells, important for successful CD4 T cell-B cell interactions. Deficiency in STX11 impairs CD4 T cell-dependent B cell differentiation and humoral responses.

Hyperinflammatory disease is associated with an aberrant immune response resulting in cytokine storm. One such instance of hyperinflammatory disease is known as macrophage activation syndrome (MAS). The pathology of MAS can be characterised by significantly elevated serum levels of interleukin-18 (IL-18) and interferon gamma (IFNγ). Given the role for IL-18 in MAS, we sought to establish the role of inflammasomes in the disease process. Using a murine model of CpG-oligonucleotide-induced MAS, we discovered that the expression of the NLRP3 inflammasome was increased and correlated with IL-18 production. Inhibition of the NLRP3 inflammasome or the downstream caspase-1 prevented MAS-mediated upregulation of IL-18 in the plasma but, interestingly, did not alleviate key features of hyperinflammatory disease including hyperferritinaemia and splenomegaly. Furthermore blockade of IL-1 receptor with its antagonist IL-1Ra did not prevent the development of CpG-induced MAS, despite being clinically effective in the treatment of MAS. These data demonstrate that, during the development of MAS, the NLRP3 inflammasome was essential for the elevation in plasma IL-18 - a key cytokine in clinical cases of MAS - but was not a driving factor in the pathogenesis of CpG-induced MAS.

Hemophagocytic lymphohistiocytosis (HLH) comprises a severe hyperinflammatory phenotype driven by the overproduction of cytokines, many of which signal via the JAK/STAT pathway. Indeed, the JAK1/2 inhibitor ruxolitinib has demonstrated efficacy in preclinical studies and early-phase clinical trials in HLH. Nevertheless, concerns remain for ruxolitinib-induced cytopenias, which are postulated to result from the blockade of JAK2-dependent hematopoietic growth factors. To explore the therapeutic effects of selective JAK inhibition in mouse models of HLH, we carried out studies incorporating the JAK1 inhibitor itacitinib, JAK2 inhibitor fedratinib, and JAK1/2 inhibitor ruxolitinib. All 3 drugs were well-tolerated and at the doses tested, they suppressed interferon-gamma (IFN-γ)-induced STAT1 phosphorylation in vitro and in vivo. Itacitinib, but not fedratinib, significantly improved survival and clinical scores in CpG-induced secondary HLH. Conversely, in primary HLH, in which perforin-deficient (Prf1-/-) mice are infected with lymphocytic choriomeningitis virus (LCMV), itacitinib, and fedratinib performed suboptimally. Ruxolitinib demonstrated excellent clinical efficacy in both HLH models. RNA-sequencing of splenocytes from LCMV-infected Prf1-/- mice revealed that itacitinib targeted inflammatory and metabolic pathway genes in CD8 T cells, whereas fedratinib targeted genes regulating cell proliferation and metabolism. In monocytes, neither drug conferred major transcriptional impacts. Consistent with its superior clinical effects, ruxolitinib exerted the greatest transcriptional changes in CD8 T cells and monocytes, targeting more genes across several biologic pathways, most notably JAK-dependent proinflammatory signaling. We conclude that JAK1 inhibition is sufficient to curtail CpG-induced disease, but combined inhibition of JAK1 and JAK2 is needed to best control LCMV-induced immunopathology.