Triggering Receptor Expressed On Myeloid Cells-1 Expression Research Articles

Inhibition of TREM-1 alleviates neuroinflammation by modulating microglial polarization via SYK/p38MAPK signaling pathway after traumatic brain injury

BackgroundTraumatic brain injury (TBI), as a major public health problem, is characterized by high incidence rate, disability rate, and mortality rate. Neuroinflammation plays a crucial role in the pathogenesis of TBI. Triggering receptor expressed on myeloid cells-1 (TREM-1) is recognized as an amplifier of the inflammation in diseases of the central nervous system (CNS). However, the function of TREM-1 remains unclear post-TBI. This study aimed to investigate the function of TREM-1 in neuroinflammation induced by TBI. MethodsBrain water content (BWC), modified neurological severity score (mNSS), and Morris Water Maze (MWM) were measured to evaluate the effect of TREM-1 inhibition on nervous system function and outcome after TBI. TREM-1 expression in vivo was evaluated by Western blotting. The cellular localization of TREM-1 in the damaged region was observed via immunofluorescence staining. We also conducted Western blotting to examine expression of SYK, p-SYK and other downstream proteins. ResultsWe found that inhibition of TREM-1 reduced brain edema, decreased mNSS and improved neurobehavioral outcomes after TBI. It was further determined that TREM-1 was expressed on microglia and modulated subtype transition of microglia. Inhibition of TREM-1 alleviated neuroinflammation, which was associated with SYK/p38MAPK signaling pathway. ConclusionsThese findings suggest that TREM-1 can be a potential clinical therapeutic target for alleviating neuroinflammation after TBI.

Eosinophil expression of Triggering receptor expressed on myeloid cells-1 (TREM-1) restricts type 2 lung inflammation.

Asthma affects 25 million Americans and recent advances in treatment are effective for only a portion of severe asthma patients. Triggering Receptor Expressed on Myeloid cells 1 (TREM-1), an innate receptor that canonically amplifies inflammatory signaling in neutrophils and monocytes, plays a central role in regulating lung inflammation. It is unknown how TREM-1 contributes to allergic asthma pathology. Utilizing a murine model of asthma, flow cytometry revealed TREM-1+ eosinophils in the lung tissue and airway during allergic airway inflammation. TREM-1 expression was restricted to recruited, inflammatory eosinophils. Expression was induced on bone marrow derived eosinophils by incubation with IL-33, LPS, or GM-CSF. Compared to TREM-1- airway eosinophils, TREM-1+ eosinophils were enriched for pro-inflammatory gene sets including migration, respiratory burst, and cytokine production. Unexpectedly, eosinophil-specific ablation of TREM-1 exacerbated airway IL-5 production, airway MUC5AC production, and lung tissue eosinophil accumulation. Further investigation of transcriptional data revealed apoptosis and superoxide generation related gene sets were enriched in TREM-1+ eosinophils. Consistent with these findings, Annexin V and Caspase 3/7 staining demonstrated higher rates of apoptosis among TREM-1+ eosinophils compared to TREM-1- eosinophils in the inflammatory airway. In vitro, Trem1/3-/- bone marrow derived eosinophils consumed less oxygen than WT in response to PMA, suggesting that TREM-1 promotes superoxide generation in eosinophils. These data reveal protein level expression of TREM-1 by eosinophils, define a population of TREM-1+ inflammatory eosinophils, and demonstrate that eosinophil TREM-1 restricts key features of type 2 lung inflammation.

Molecular and immunological features of TREM1 and its emergence as a prognostic indicator in glioma.

Triggering receptor expressed on myeloid cells 1 (TREM1), which belongs to the Ig-like superfamily expressed on myeloid cells, is reportedly involved in various diseases but has rarely been studied in glioma. In this study, the prognostic value and functional roles of TREM2 in glioma were analyzed. TERM1 was observed to be significantly upregulated in GBM compared to in other grade gliomas and was associated with poor prognosis. Increased TREM1 accompanied distinct mutation and amplification of driver oncogenes. Moreover, gene ontology and KEGG analyses showed that TREM1 might play a role in immunologic biological processes in glioma. TREM1 was also found to be tightly correlated with immune checkpoint molecules. xCell research revealed a link between TREM1 expression and multiple immune cell types, especially monocytes and macrophages. Single-cell analysis and immunofluorescence results showed that macrophages expressed TREM1. In vitro, inhibition of TREM1 signaling could result in a decrease in tumor-promoting effects of monocytes/TAMs. In summary, TREM1 may be a potential independent prognostic factor and immune target, which might provide new avenues to improve the efficacy of immunotherapy in glioma patients.

Systemic neutrophils are triggered by respiratory Bacillus Calmette- Guérin and mediate pulmonary mycobacterial clearance in synergy with the triggering receptor expressed on myeloid cells 1

Tuberculosis remains a threat to public health. The only approved vaccine, Bacillus Calmette-Guérin (BCG), is administered intradermally and provides limited protection, and its effect on innate immunity via the respiratory route has not been fully elucidated. A mouse model with genetically depleted TREM1 and seven-color flow cytometry staining were used to characterize the comprehensive immune response induced by respiratory BCG, through evaluating organ bacterial loads, lung histopathology, and lung immunohistochemistry. During respiratory BCG infection, the murine lungs displayed effective bacterial clearance. Notably, marked differences in neutrophils were observed between thymus and bone marrow cells, characterized by a significant increase in the expression of the triggering receptor expressed on myeloid cells 1 (TREM1). Subsequently, upon depletion of TREM1, a reduction in pulmonary neutrophils was observed, which further exacerbated bacterial loads and resulted in worsened pathology following respiratory BCG infection. In summary, up-regulated expression of TREM1 in rapidly increasing circulating neutrophil by pulmonary BCG is required for an efficient host response to BCG infection, and suggests the important role of TREM1 in neutrophil-related pulmonary bacteria clearance and pathology.

HIV-1 Tat Upregulates TREM1 Expression in Human Microglia.

Because microglia are a reservoir for HIV and are resistant to the cytopathic effects of HIV infection, they are a roadblock for any HIV cure strategy. We have previously identified that triggering receptor expressed on myeloid cells 1 (TREM1) plays a key role in human macrophage resistance to HIV-mediated cytopathogenesis. In this article, we show that HIV-infected human microglia express increased levels of TREM1 and are resistant to HIV-induced apoptosis. Moreover, upon genetic inhibition of TREM1, HIV-infected microglia undergo cell death in the absence of increased viral or proinflammatory cytokine expression or the targeting of uninfected cells. We also show that the expression of TREM1 is mediated by HIV Tat through a TLR4, TICAM1, PG-endoperoxide synthase 2, PGE synthase, and PGE2-dependent manner. These findings highlight the potential of TREM1 as a therapeutic target to eradicate HIV-infected microglia without inducing a proinflammatory response.

A phase 1a dose-escalation study of PY159, a monoclonal antibody targeting TREM1 (triggering receptor expressed on myeloid cells 1).

2523 Background: This study aimed to characterize the safety of PY159 (an agonist antibody to TREM1 that reprograms immunosuppressive intratumoral myeloid cells) as a single agent and in combination with pembrolizumab in subjects with advanced refractory solid tumors, including subjects refractory to immune checkpoint inhibitors. Methods: Two strata were evaluated, PY159 as a single agent and in combination with pembrolizumab, using an accelerated 3+3 dose escalation study design. Dosing was intravenous once every 3 weeks. Disease assessment by RECIST 1.1 was performed every 6 weeks. The single-agent stratum included 7 dose levels of PY159 (range, 0.01–10 mg/kg). The combination stratum included 4 dose levels of PY159 (range, 0.3–10 mg/kg). Pharmacokinetics were evaluated at specified time points. Archival tumor tissue was analyzed for TREM1 expression by immunohistochemistry. Based on preclinical immunohistochemistry data, HR+ HER2– and triple-negative breast cancer, gastric cancer, pancreatic cancer, head and neck cancer, non-small cell lung cancer, and gynecologic cancers were studied. Results: Thirty-seven subjects (median age 65 years; range 29–86 years; 22 female and 15 male) with an ECOG PS <2 were enrolled and all but 5 were RECIST-evaluable (3 withdrew consent, 1 sustained a TEAE, and 1 had a DLT, an asymptomatic grade-3 transaminitis). Twenty subjects received single-agent PY159 and 17 received PY159 in combination with pembrolizumab. Four subjects experienced a grade-3 TRAE, 14 a low-grade immune-related reaction, 18 an SAE (related in 2), and 14 an immune-related adverse event (arthralgias). There were no SUSARs. Five subjects sustained high-grade TRAE resulting in discontinuation. TREM1 levels in the tumors ranged from 0 to 15%. Pharmacokinetic parameters were linear beyond the 0.3 mg/kg dose, dose proportional with a half-life of 8–9 days, and unaffected by pembrolizumab. Radiographic response included 2 partial responses (1 each in an ovarian and pancreatic cancer subject) and stable disease in 9 subjects, ranging from 12 to 96+ weeks. Two subjects continue receiving PY159. Conclusions: PY159 was well tolerated, with an acceptable safety profile, as a single agent and in combination with pembrolizumab. A dose for expansion was derived and enrollment of subjects with 7 prespecified cancers is ongoing. Clinical trial information: NCT04682431 .

Jo-1 Antibodies From Myositis Induce Complement-Dependent Cytotoxicity and TREM-1 Upregulation in Muscle Endothelial Cells.

Muscle microangiopathy due to dysfunction of endothelial cells because of inflammation is a critical hallmark of dermatomyositis (DM); however, its pathomechanism remains unclear. The aim of this study was to evaluate the effect of immunogloblin G (IgG) from patients with idiopathic inflammatory myopathies (IIM) on muscle endothelial cells in vitro. Using a high-content imaging system, we analyzed whether IgG purified from sera from patients with IIM (n = 15), disease controls (DCs: n = 7), and healthy controls (HCs: n = 7) can bind to muscle endothelial cells and induce complement-dependent cellular cytotoxicity. IgGs from Jo-1 antibody myositis could bind to muscle endothelial cells and caused complement-dependent cell cytotoxicity. RNA-seq demonstrated the upregulation of genes associated with tumor necrosis factor (TNF)-α, triggering receptor expressed on myeloid cells-1 (TREM-1), CD25, and mitochondria pathways after exposure to IgG from the Jo-1, signal recognition particle (SRP), and polymyositis (PM) groups. The high-content imaging system showed that TREM-1 expression in the Jo-1, SRP, and PM groups was increased in comparison with DCs and HCs and that the TNF-α expression in the Jo-1 group was higher in comparison with the SRP, PM, DC, and HC groups. The expression of TREM-1 was observed in biopsied capillaries and the muscle membrane from patients with Jo-1 and in biopsied muscle fiber and capillaries from patients with DM and SRP. The depletion of Jo-1 antibodies by IgG of patients with Jo-1 antibody myositis reduced the Jo-1 antibody-induced complement-dependent cellular cytotoxicity in muscle endothelial cells. Jo-1 antibodies from Jo-1 antibody myositis show complement-dependent cellular cytotoxicity in muscle endothelial cells. IgGs from patients with Jo-1, SRP, and DM increase the TREM-1 expression in endothelial cells and muscles.

Inhibition of TREM-1 ameliorates Lipopolysaccharide-induced depressive-like behaviors by alleviating neuroinflammation in the PFC via PI3K/Akt signaling pathway

Neuroinflammation is closely related to depression and is a key pathophysiological process of depression. Triggering receptor expressed on myeloid cells 1 (TREM-1) has been proven to exert proinflammatory effects in various diseases. However, the role of TREM-1 in depression has not been elucidated. Thus, we hypothesized that TREM-1 inhibition might have protective effects in depression. Here, lipopolysaccharide (LPS) was used to induce depressive-like behaviors in mice, LP17 was treated to inhibit TREM-1, and LY294002 was administrated to inhibit phosphatidylinositol 3-kinase (PI3K) which is one of the downstream of TREM-1. Physical and neurobehavioral tests, Western blot analysis, and immunofluorescence staining were performed in this study. We found that LPS caused significant depressive-like behaviors in mice, including body weight decline, anodynia (sucrose preference decrease), lack of locomotor activity, and desperation in tail suspension test (TST) and forced swimming test (FST). Next, we revealed that TREM-1 was expressed on microglia, neurons, and astrocytes in the prefrontal cortex (PFC) after LPS administration. TREM-1 inhibition by LP17 suppressed the expression of TREM-1 in the PFC. In addition, LP17 could alleviate neuroinflammation and microglial activation in the PFC. Meanwhile, LP17 could prevent damage of LPS to neuronal primary cilia and neuronal activity. Finally, we revealed that PI3K/Akt might exert crucial role in the protective effects of TREM-1 inhibition to depressive-like behaviors induced by LPS. Taken together, TREM-1 inhibition by LP17 could alleviate depressive-like behaviors induced by LPS by mitigating neuroinflammation in the PFC via PI3K/Akt signaling pathway. Finally, we demonstrated that TREM-1 might be a promising therapeutic target for treatment of depression.

High Expression of Triggering Receptor Expressed on Myeloid Cells 1 Predicts Poor Prognosis in Glioblastoma.

Glioblastoma (GBM) is a highly malignant tumor with poor prognosis, and new treatment strategies are urgently needed. Currently, the role of triggering receptor expressed on myeloid cells 1 (TREM-1) in tumors has been studied, but the role of TREM-1 in GBM remains unclear. Immunohistochemical staining for TREM-1 was performed in 91 patients diagnosed with GBM. Clinicopathological characteristics and survival times were recorded. TREM-1 expression and its effect on prognosis were analyzed using online Gene Expression Profiling Interactive Analysis (GEPIA), The Cancer Genome Atlas (TCGA), and Chinese Glioma Genome Atlas (CGGA) databases. The expression profile of TCGA-GBM cohort was used to perform functional enrichment analysis. The CIBERSORT method and Tumor Immune Estimation Resource (TIMER) database were used to estimate the tumor-infiltrating immune cells (TIICs). The ESTIMATE algorithm was used to estimate the immune-stromal scores. Finally, the relationships of TREM-1 with TIICs, immune-stromal score, and immune checkpoint genes (ICGs) were analyzed. The expression of TREM-1 was upregulated in GBM, and high TREM-1 expression predicted a poor prognosis. TREM-1, surgical resection, postoperative radiotherapy, and temozolomide (TMZ) chemotherapy were associated with the survival time of patients with GBM, but only surgical resection and TREM-1 expression were independent prognostic factors. GBM with high TREM-1 expression exhibited increased neutrophil and macrophage infiltration. TREM-1 was positively associated with the immune-stromal score and multiple ICGs, and most of which were involved in immunosuppressive responses. The present study revealed that high expression of TREM-1 in GBM is an independent poor prognosis factor and that TREM-1 is associated with the immunosuppressive microenvironment. Thus, blocking TREM-1 may be a strategy for enhancing the GBM immune response.

Radiation upregulates macrophage TREM-1 expression to exacerbate injury in mice.

Exposure to high-dose ionizing radiation causes tissue injury, infections and even death due to immune dysfunction. The triggering receptor expressed on myeloid cells-1 (TREM-1) has been demonstrated to critically amplify and dysregulate immune responses. However, the role of TREM-1 in radiation injury remains unknown. Extracellular cold-inducible RNA-binding protein (eCIRP), a new damage-associated molecular pattern, is released from activated or stressed cells during inflammation. We hypothesized that ionizing radiation upregulates TREM-1 expression via eCIRP release to worsen survival. RAW264.7 cells and peritoneal macrophages collected from C57BL/6 wild-type (WT) mice were exposed to 5- and 10-Gray (Gy) radiation. C57BL/6 WT and CIRP-/- mice underwent 10-Gy total body irradiation (TBI). TREM-1 expression on RAW264.7 cells and peritoneal macrophages in vitro and in vivo were evaluated by flow cytometry. eCIRP levels in cell culture supernatants and in peritoneal lavage isolated from irradiated mice were evaluated by Western blotting. We also evaluated 30-day survival in C57BL/6 WT, CIRP-/- and TREM-1-/- mice after 6.5-Gy TBI. The surface protein and mRNA levels of TREM-1 in RAW264.7 cells were significantly increased at 24 h after 5- and 10-Gy radiation exposure. TREM-1 expression on peritoneal macrophages was significantly increased after radiation exposure in vitro and in vivo. eCIRP levels were significantly increased after radiation exposure in cell culture supernatants of peritoneal macrophages in vitro and in peritoneal lavage in vivo. Moreover, CIRP-/- mice exhibited increased survival after 6.5-Gy TBI compared to WT mice. Interestingly, TREM-1 expression on peritoneal macrophages in CIRP-/- mice was significantly decreased compared to that in WT mice at 24 h after 10-Gy TBI. Furthermore, 30-day survival in TREM-1-/- mice was significantly increased to 64% compared to 20% in WT mice after 6.5-Gy TBI. Our data indicate that ionizing radiation increases TREM-1 expression in macrophages via the release of eCIRP, and TREM-1 contributes to worse survival after total body irradiation. Thus, targeting TREM-1 could have the potential to be developed as a novel medical countermeasure for radiation injury.

Role of triggering receptor expressed on myeloid cells-1 in the mechanotransduction signaling pathways that link low shear stress with inflammation

This study sought to investigate the role of triggering receptor expressed on myeloid cells-1 (TREM-1) in the mechanotransduction signaling pathways that link low shear stress with inflammation. Human coronary artery endothelial cells, human coronary artery smooth muscle cells, and THP-1 monocytes were co-cultured and exposed to varying endothelial shear stress (ESS) conditions: low (5 ± 3 dynes/cm2), medium (10 ± 3 dynes/cm2), and high (15 ± 3 dynes/cm2). We showed that low ESS increased the expression of TREM-1 by the cultured cells leading to increased production of inflammatory mediators and matrix-degrading enzymes, whereas high ESS did not have a significant effect in the expression of TREM-1 and inflammatory mediators. Furthermore, TREM-1 transcriptional inhibition with siRNA in endothelial cells, smooth muscle cells, and monocytes exposed to low ESS, led to a significant reduction in the production of vascular inflammatory mediators and matrix-degrading enzymes. Additionally, we identified the transcription factors that appear to upregulate the TREM-1 gene expression in response to low ESS. To the best of our knowledge, this is the first study to investigate the pathophysiologic association and molecular pathways that link low ESS, TREM-1, and inflammation using a sophisticated in-vitro model of atherosclerosis. Future studies on animals and humans are warranted to investigate the potential of TREM-1 inhibitors as adjunctive anti-atherosclerotic therapies.

The role of TREM1 in regulating microglial polarization in sevoflurane-induced perioperative neurocognitive disorders

Microglia-mediated neuroinflammatory responses play a key role in perioperative neurocognitive disorders (PND). Triggering receptor expressed on myeloid cells-1 (TREM1) has been shown to be a key regulator of inflammation. However, its role in PND remains largely unknown. This study aimed to evaluate the role of TREM1 in sevoflurane-induced PND. We applied AAV knockdown TREM1 in hippocampal microglia in aging mice. The mice were then subjected to neurobehavioral and biochemical testing after the intervention of sevoflurane. We found that sevoflurane inhalation can cause PND in mice, increase hippocampal TREM1 expression, polarize microglia to M1 type, upregulate TNF-α and IL-1β expression (pro-inflammatory), and inhibit TGF-β and IL-10 expression (anti-inflammatory). Knocking down TREM1 can improve sevoflurane-induced cognitive dysfunction, reduce M1 type marker iNOS, and increase M2 type marker ARG, improving the neuroinflammation. TREM1 is a target for sevoflurane-induced PND prevention.

DOP71 TREM1, OSM and a co-expressed transcriptional module are core components of the molecular resistome to anti-cytokine therapy in Ulcerative Colitis

Abstract Background Molecular biomarkers are emerging as promising tools to predict response to advanced therapy in IBD. For instance, mucosal expression of Triggering Receptor Expressed on Myeloid cells-1 (TREM1) and oncostatin M (OSM) are associated with anti-TNF non-response in Ulcerative Colitis (UC). The specificity of such transcriptional features is poorly understood. We investigated whether mucosal expression of TREM1 and OSM influences ustekinumab response in UC. Methods UNIFI is a landmark, phase III, registration trial that evaluated the efficacy of ustekinumab as induction and maintenance therapy in patients with moderate to severe UC. In a subset of patients (n=358), colonic biopsies were sampled at baseline and gene expression profiled by RNA microarray (Affymetrix HT HG-U133+ PM). Normalised expression levels of TREM1 and OSM for responders and non-responders to induction (week 8 mucosal healing) were compared using Mann-Whitney U test on GraphPad Prism 9.2.0. Co-expressed transcripts were determined with Morpheus matrix visualisation software (Broad Institute, USA). Gene set variation analysis was used to calculate gene set enrichment scores (ES) within the expression data. Multivariable models were developed to construct receiver operating characteristic curve (ROC) analyses. Deeper biological insights of TREM1- and OSM-expressing cells were explored using single cell RNA sequencing and Gene Ontology over-representation analysis (R 4.2.2). Results Mucosal expression of TREM1 and OSM in inflamed colonic biopsies correlated highly (r = 0.81, p<0.0001) and TREM1 was the third-highest correlate with OSM across the entire genome. Pathway analysis showed that a 20-gene module (GS1) of transcripts co-expressed with TREM1 and OSM was enriched for immune cell adhesion, migration and differentiation (Fig 1). Expression of TREM1 (median: 6.27 vs 5.55, p<0.001), OSM (5.00 vs 4.72, p=0.002) and GS1 (ES: 0.00221 vs -0.496, p<0.0001) were all significantly increased in ustekinumab non-responders compared to responders (Fig 2). Although key clinical parameters correlated weakly with TREM1 and OSM expression, they improved the performance of multivariate models to predict non-response (Fig 3). TREM1 and OSM were predominantly expressed by the same population of inflammatory monocytes accumulating in inflamed colon tissue (Fig 4). Conclusion Colonic expression of TREM1 and OSM is associated with resistance to both anti-TNF therapy and ustekinumab, supporting the notion that they constitute a core molecular resistome in UC patients treated with anti-cytokine agents. Their predominant co-expression in infiltrating, inflammatory monocytes indicates that treatment resistance is likely underpinned by biological pathways regulated by this cell population.

SINGLE CELL RNA SEQUENCING OF ULCERATIVE COLITIS AND CROHN'S DISEASE TISSUE SAMPLES INFORMS THE SELECTION OF TREM1 AS A TARGET FOR THE TREATMENT OF INFLAMMATORY BOWEL DISEASES

Abstract Ulcerative colitis (UC) and Crohn’s disease (CD) are complex and heterogenous diseases characterized by chronic and progressive inflammation of the digestive tract. Single cell RNA sequencing combined with computational biology provides unprecedented insights into disease biology, informing novel therapeutic targets and precision medicine approaches. To identify potential mediators of persistent inflammation in inflammatory bowel disease (IBD), we performed single cell RNA sequencing on tissue samples collected from UC and CD patients before and after beginning adalimumab. In this study, 41 participants, including 21 UC patients, 17 CD patients and 3 healthy individuals, were enrolled at the University of Oxford’s Translational Gastroenterology Unit and Kennedy Institute of Rheumatology. Patients had moderate-to-severe disease based on symptoms and endoscopy, were biologic naïve, and planned to initiate adalimumab. Mucosal biopsies for single cell RNA sequencing were collected from multiple anatomic locations for each subject before beginning and after a minimum of 3 months of adalimumab, at which time treatment response was assessed. During the study, clinical response as defined by composite measures was observed in 8 UC and 9 CD patients. Differential cell composition and gene expression analysis of the single cell data revealed inflammatory monocyte subtypes as highly enriched in inflamed relative to uninflamed samples, and this cellular subset remained highly elevated in inflamed samples from adalimumab non-responders. These cells were characterized by expression of multiple cell-surface receptors with potential to drive pathology, including TREM1 (Triggering Receptor Expressed on Myeloid Cells 1), a transmembrane receptor that amplifies anti-bacterial neutrophil and monocyte mediated responses. TREM1+ inflammatory monocytes were highly enriched in UC and CD inflamed samples (Fig 1), both prior to adalimumab and in adalimumab non-responders. The enrichment of TREM1+ cells was specific to inflamed IBD tissue and was not observed in non-inflamed tissue from IBD patients or healthy subjects; enrichment of TREM1+ cells was also not observed in circulating peripheral blood mononuclear cells. TREM1+ neutrophils and monocytes in the gut mucosa amplify innate immune responses to bacteria in the context of epithelial barrier dysfunction and bacterial dysbiosis in IBD. When activated, TREM1 signaling induces multiple soluble mediators relevant for IBD pathology. Our single cell RNA sequencing data provide further evidence that TREM1 is an exciting therapeutic target for UC and CD, with inhibition of TREM1 signaling expected to address pathology while maintaining an anti-bacterial response. We therefore developed a highly potent and selective monoclonal antibody inhibitor of TREM-1, CEL383, with the Phase 1 clinical trial expected to start in 2023. Figure 1. tSNE plot of myeloid cells from inflamed IBD tissue samples demonstrating high TREM1 expression across inflammatory monocytes

Hepatitis B Virus Flares After Nucleot(s)ide Analogue Cessation Are Associated With Activation of Toll-Like Receptor Signaling Pathways.

We evaluated the patterns of peripheral Toll-like receptor (TLR) signaling activity and the expression of TLRs and natural killer (NK) cell activation in a cohort of patients experiencing severe hepatitis flares after stopping nucleot(s)ide analogues (NAs) therapy. Samples were collected longitudinally from patients with chronic hepatitis B who were enrolled in a prospective study of NA discontinuation. Patients experiencing hepatitis flares were compared with patients with normal alanine aminotransferase. Peripheral blood mononuclear cells (PBMCs) were stimulated with TLR ligands and cytokine secretion in the cell culture supernatant measured. Expression of TLR2/4, NKG2D, NKp46, and triggering receptor expressed on myeloid cells 1 (TREM-1) on monocytes, NK, and NK-T cells was measured. Seventeen patients with severe reactivation hepatitis flares were compared to 12 nonflare patients. Hepatitis flares were associated with increased activity of TLR2-8 and TLR9 signaling in PBMCs at the time of peak flare compared to baseline. Hepatitis flares were also associated with (1) upregulation of TLR2 and (2) TREM-1 receptor expression on NK. There were no differences at baseline between flare patients and nonflare patients. Hepatitis flares off NA therapy have a significant innate inflammatory response with upregulation of TLR signaling on peripheral monocytes and TLR2 and TREM-1 expression on NK cells. This implicates the innate immune system in the immunopathogenesis of hepatitis B flares.

TREM-1 Modulation Strategies for Sepsis.

The triggering receptor expressed on myeloid cells-1 (TREM-1) is a pattern recognition receptor, which can be upregulated in inflammatory diseases as an amplifier of immune responses. Once activated, TREM-1 induces the production and release of pro-inflammatory cytokines and chemokines, in addition to increasing its own expression and circulating levels of the cleaved soluble extracellular portion of TREM-1 (sTREM-1). This amplification of the inflammatory response by TREM-1 has now been considered as a critical contributor to the dysregulated immune responses in sepsis. Studies have shown that in septic patients there is an elevated expression of TREM-1 on immune cells and increased circulating levels of sTREM-1, associated with increased mortality. As a result, a considerable effort has been made towards identifying endogenous ligands of TREM-1 and developing TREM-1 inhibitory peptides to attenuate the exacerbated inflammatory response in sepsis. TREM-1 modulation has proven a promising strategy for the development of therapeutic agents to treat sepsis. Therefore, this review encompasses the ligands investigated as activators of TREM-1 thus far and highlights the development and efficacy of novel inhibitors for the treatment of sepsis and septic shock.

TREM-1 Modulates Dendritic Cells Maturation and Dendritic Cell-Mediated T-Cell Activation Induced by ox-LDL.

Atherosclerosis is a chronic inflammatory disease. The triggering receptor expressed on myeloid cells-1 (TREM-1) plays a crucial role in inflammatory diseases; recently, it was identified as a major upstream proatherogenic receptor, but its mechanism is still unclear. In this study, we explore the role of TREM-1 on dendritic cells maturation and inflammatory responses induced by ox-LDL and its possible mechanism. Human dendritic cells were differentiated from blood monocytes and treated with ox-LDL. Naive autologous T cells were cocultured with pretreated DCs or treated directly. The expression of TREM-1 and inflammatory factors were evaluated by real-time PCR, western blot, and ELISA methods. And the expression of immune factors to evaluate the DCs maturation and T-cell activation were determined by the FACS. Our study showed that ox-LDL induced TREM-1 expression, DC maturation, and T-cell activation. T cells exposed to ox-LDL-treated DCs produced interferon-γ and interleukin-17 (IL-17). Blocking TREM-1 suppressed the DC maturation, showing lower expression of CD1a, CD40, CD86, CD83, and HLA-DR, and limited their production of tumor necrosis factor-alpha (TNF-α), IL-1β, IL-6, and monocyte chemoattractant protein-1 (MCP-1), meanwhile increased transforming growth factor-β(TGF-β) and IL-10 production. Ox-LDL induced miR-155, miR-27, Let-7c, and miR-185 expression; however, TREM-1 inhibiting decreased miRNA-155 expression. Furthermore, silencing miRNA-155 restores SOCS1 repression induced by ox-LDL. Experiments with T cells derived from carotid atherosclerotic plaques or healthy individuals showed similar results. Our results uncover a new link between ox-LDL and TREM-1 and may provide insight into this interaction in the context of atherosclerosis.

Abstract 195: Transcriptional Regulation Of Transcriptional Regulation Of Triggering Receptor Expressed On Myeloid Cells-1 By Low Shear Stress In A Three-dimensional Co-culture Of Coronary Artery Smooth Muscle Cells, Endothelial Cells, And Monocytes

Objectives: To identify transcriptional factors involved in the expression of Triggering Receptor Expressed on Myeloid Cells-1 (TREM-1) in response to low shear stress in an in-vitro model of coronary artery atherosclerosis. Methods: Human coronary artery smooth muscle cells were mixed with neutralized type I collagen solution and plated on glass coverslips. The human coronary artery endothelial cells (HCAECs) were then plated on top of the collagen gels followed by plating monocytes (THP-1 cells) on top of the HCAECs. After 48 h, the co-culture was treated with or without low shear stress (LSS, 5±3 dyne/cm 2 ) using the Flexcell Streamer for 30 min. Protein and mRNA of TREM-1 expression was assessed by immunofluorescence staining and real time RT-PCR. The expression of transcriptional factors involved in the expression of TREM-1 was assessed by ChIP assay. Results: LSS significantly stimulated TREM-1 expression as evidenced by IF staining and mRNA expression (fold increase vs control: 43.2 ± 9.7, Fig 1A and 1B ). ChIP assay demonstrated that, under control condition (no flow), NF-κB (p65), PU.1 and activation transcription factor 2 (ATF2) bound to TREM-1 promoter region 2, but not to region 1 ( Fig 2A ). In response to LSS for 30 min, however, binding of the NF-κB (p65), PU.1 and ATF2 to TREM-1 promoter region 2 was significantly enhanced; furthermore, LSS treatment induced binding of NF-κB (p65), PU.1 and ATF2 to TREM-1 promoter region 1 ( Fig 2B) . Conclusions: Transcriptional factors NF-κB (p65), PU.1 and ATF2 are critically involved in the TREM-1 expression in response to LSS stimulation in an in-vitro model of human coronary artery atherosclerosis.

Persistent DNA damage and oncogenic stress-induced Trem1 promotes leukemia in mice.

The immune receptor TREM1 (Triggering receptor expressed on myeloid cells 1) is a master regulator of inflammatory response. Compelling evidence suggests important pathological roles for TREM1 in various types of solid tumors. However, the role of TREM1 in hematologic malignancies is not known. Our previous study demonstrated that TREM1 cooperates with diminished DNA damage response to induce expansion of pre-leukemic hematopoietic stem cells (HSC) in mice deficient for the Fanconi anemia gene Fanca. Here we investigated TREM1 in leukemogenesis using mouse models of the DNA repair-deficient Fanca-/- and the oncogenic MLL-AF9 or KrasG12D. We found that Trem1 was highly expressed in preleukemic HSC and leukemia stem cells (LSC). By selective deletion of the Trem1 gene in the hematopoietic compartment, we showed that ablation of Trem1 reduced leukemogenic activity of the pre-leukemic HSC and LSC in mice. Trem1 was required for the proliferation of the pre-leukemic HSC and LSC. Further analysis revealed that Trem1 expression in preleukemic HSC and LSC was associated with persistent DNA damage, prolonged oncogenic stress, and a strong inflammatory signature. Targeting several top Trem1 inflammatory signatures inhibited the proliferation of pre-leukemic HSC and LSC. Collectively, our observations uncover previously unknown expression and function of TREM1 in malignant stem cells, and identify TREM1 as a driver of leukemogenesis.

Role of triggering receptor expressed on myeloid cells-1 (TREM-1) in COVID-19 and other viral pneumonias: a systematic review and meta-analysis of clinical studies.

BackgroundTriggering receptor expressed on myeloid cells-1 (TREM-1) has emerged as an important inflammatory marker of immune response associated with severity and mortality outcomes in infection diseases, including viral pneumonias.Aim(1) To evaluate the expression of TREM-1 in patients with COVID-19 and other viral pneumonias compared to healthy individuals; and (2) to analyze the levels of these biomarkers according to disease severity.Materials and methodsThis review was conducted according to the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) guideline. Searches were performed in PubMed, Scopus, Embase, and Google Scholar. Studies were considered eligible if they were observational studies that provided data on the levels of TREM-1 in humans with viral pneumonia compared to healthy controls. The results of the meta-analysis were expressed as standardized mean difference (SMD) and an effect size of 0.8 was considered a large effect. A subgroup analysis was performed according to the disease severity.ResultsSeven studies were included in this systematic review. Four studies included patients with COVID-19 and three analyzed patients with different viruses. The meta-analysis was performed only with patients with COVID-19, which showed increased levels of soluble form of TREM-1 (sTREM-1) among patients with COVID-19 compared to healthy controls (SMD 1.53; 95% CI 0.53–2.52; p < 0.01). No differences were found between patients with mild-to-moderate COVID-19 and healthy controls, but higher levels of sTREM-1 were shown among patients with severe COVID-19 (SMD 1.83; 95% CI 0.77–2.88; p < 0.01). All three studies including patients with other viral pneumonias showed that TREM-1 levels were significantly elevated in infected patients compared with controls.ConclusionThese findings may provide evidence on the pro-inflammatory role of TREM-1 in these infections, contributing to the inflammatory profile and disease progression.Supplementary InformationThe online version contains supplementary material available at 10.1007/s10787-022-00972-6.