技术资料

Neural–tumor interactions drive glioma growth as evidenced in preclinical models,but clinical validation is limited. We present an epigenetically defined neural signature of glioblastoma that independently predicts patients’ survival. We use reference signatures of neural cells to deconvolve tumor DNA and classify samples into low- or high-neural tumors. High-neural glioblastomas exhibit hypomethylated CpG sites and upregulation of genes associated with synaptic integration. Single-cell transcriptomic analysis reveals a high abundance of malignant stemcell-like cells in high-neural glioblastoma,primarily of the neural lineage. These cells are further classified as neural-progenitor-cell-like,astrocyte-like and oligodendrocyte-progenitor-like,alongside oligodendrocytes and excitatory neurons. In line with these findings,high-neural glioblastoma cells engender neuron-to-glioma synapse formation in vitro and in vivo and show an unfavorable survival after xenografting. In patients,a high-neural signature is associated with decreased overall and progression-free survival. High-neural tumors also exhibit increased functional connectivity in magnetencephalography and resting-state magnet resonance imaging and can be detected via DNA analytes and brain-derived neurotrophic factor in patients’ plasma. The prognostic importance of the neural signature was further validated in patients diagnosed with diffuse midline glioma. Our study presents an epigenetically defined malignant neural signature in high-grade gliomas that is prognostically relevant. High-neural gliomas likely require a maximized surgical resection approach for improved outcomes. Subject terms: Translational research,CNS cancer,DNA methylation View Publication

Of all gynecologic cancers,epithelial-ovarian cancer (OCa) stands out with the highest mortality rates. Despite all efforts,90% of individuals who receive standard surgical and cytotoxic therapy experience disease recurrence. The precise mechanism by which leukemia inhibitory factor (LIF) and its receptor (LIFR) contribute to the progression of OCa remains unknown. Analysis of cancer databases revealed that elevated expression of LIF or LIFR was associated with poor progression-free survival of OCa patients and a predictor of poor response to chemotherapy. Using multiple primary and established OCa cell lines or tissues that represent five subtypes of epithelial-OCa,we demonstrated that LIF/LIFR autocrine signaling is active in OCa. Moreover,treatment with LIFR inhibitor,EC359 significantly reduced OCa cell viability and cell survival with an IC 50 ranging from 5-50 nM. Furthermore,EC359 diminished the stemness of OCa cells. Mechanistic studies using RNA-seq and rescue experiments unveiled that EC359 primarily induced ferroptosis by suppressing the glutathione antioxidant defense system. Using multiple in vitro,ex vivo and in vivo models including cell-based xenografts,patient-derived explants,organoids,and xenograft tumors,we demonstrated that EC359 dramatically reduced the growth and progression of OCa. Additionally,EC359 therapy considerably improved tumor immunogenicity by robust CD45 + leukocyte tumor infiltration and polarizing tumor-associated macrophages (TAMs) toward M1 phenotype while showing no impact on normal T-,B-,and other immune cells. Collectively,our findings indicate that the LIF/LIFR autocrine loop plays an essential role in OCa progression and that EC359 could be a promising therapeutic agent for OCa. Subject terms: Molecular medicine,Ovarian cancer View Publication

Malaria parasite invasion to host erythrocytes is mediated by multiple interactions between merozoite ligands and erythrocyte receptors that contribute toward the development of disease pathology. Here,we report a novel antigen Plasmodium prohibitin “ Pf PHB2” and identify its cognate partner “Hsp70A1A” in host erythrocyte that plays a crucial role in mediating host-parasite interaction during merozoite invasion. Using small interfering RNA (siRNA)- and glucosamine-6-phosphate riboswitch (glmS) ribozyme-mediated approach,we show that loss of Hsp70A1A in red blood cells (RBCs) or Pf PHB2 in infected red blood cells (iRBCs),respectively,inhibit Pf PHB2-Hsp70A1A interaction leading to invasion inhibition. Antibodies targeting Pf PHB2 and monoclonal antibody therapeutics against Hsp70A1A efficiently block parasite invasion. Recombinant Pf PHB2 binds to RBCs which is inhibited by anti- Pf PHB2 antibody and monoclonal antibody against Hsp70A1A. The validation of Pf PHB2 to serve as antigen is further supported by detection of anti- Pf PHB2 antibody in patient sera. Overall,this study proposes Pf PHB2 as vaccine candidate and highlights the use of monoclonal antibody therapeutics for future malaria treatment. Subject areas: biochemistry,molecular biology,immunology View Publication

Dynamic regulation of gene expression is fundamental for cellular adaptation to exogenous stressors. P-TEFb-mediated pause-release of RNA polymerase II (Pol II) is a conserved regulatory mechanism for synchronous transcriptional induction in response to heat shock,but this pro-survival role has not been examined in the applied context of cancer therapy. Using model systems of pediatric high-grade glioma,we show that rapid genome-wide reorganization of active chromatin facilitates P-TEFb-mediated nascent transcriptional induction within hours of exposure to therapeutic ionizing radiation. Concurrent inhibition of P-TEFb disrupts this chromatin reorganization and blunts transcriptional induction,abrogating key adaptive programs such as DNA damage repair and cell cycle regulation. This combination demonstrates a potent,synergistic therapeutic potential agnostic of glioma subtype,leading to a marked induction of tumor cell apoptosis and prolongation of xenograft survival. These studies reveal a central role for P-TEFb underpinning the early adaptive response to radiotherapy,opening avenues for combinatorial treatment in these lethal malignancies. Subject terms: CNS cancer,Paediatric cancer,Radiotherapy View Publication

The processes that govern human haematopoietic stem cell (HSC) self-renewal and engraftment are poorly understood and challenging to recapitulate in culture to reliably expand functional HSCs 1 – 3 . Here we identify MYC target 1 (MYCT1; also known as MTLC) as a crucial human HSC regulator that moderates endocytosis and environmental sensing in HSCs. MYCT1 is selectively expressed in undifferentiated human haematopoietic stem and progenitor cells (HSPCs) and endothelial cells but becomes markedly downregulated during HSC culture. Lentivirus-mediated knockdown of MYCT1 prevented human fetal liver and cord blood (CB) HSPC expansion and engraftment. By contrast,restoring MYCT1 expression improved the expansion and engraftment of cultured CB HSPCs. Single-cell RNA sequencing of human CB HSPCs in which MYCT1 was knocked down or overexpressed revealed that MYCT1 governs important regulatory programmes and cellular properties essential for HSC stemness,such as ETS factor expression and low mitochondrial activity. MYCT1 is localized in the endosomal membrane in HSPCs and interacts with vesicle trafficking regulators and signalling machinery. MYCT1 loss in HSPCs led to excessive endocytosis and hyperactive signalling responses,whereas restoring MYCT1 expression balanced culture-induced endocytosis and dysregulated signalling. Moreover,sorting cultured CB HSPCs on the basis of lowest endocytosis rate identified HSPCs with preserved MYCT1 expression and MYCT1-regulated HSC stemness programmes. Our work identifies MYCT1-moderated endocytosis and environmental sensing as essential regulatory mechanisms required to preserve human HSC stemness. Our data also pinpoint silencing of MYCT1 as a cell-culture-induced vulnerability that compromises human HSC expansion. Subject terms: Haematopoietic stem cells,Self-renewal,Stem-cell niche,Endocytosis,Growth factor signalling View Publication

The B cell receptor (BCR) signals together with a multi-component co-receptor complex to initiate B cell activation in response to antigen binding. Here,we take advantage of peroxidase-catalyzed proximity labeling combined with quantitative mass spectrometry to track co-receptor signaling dynamics in Raji cells from 10 s to 2 h after BCR stimulation. This approach enables tracking of 2,814 proximity-labeled proteins and 1,394 phosphosites and provides an unbiased and quantitative molecular map of proteins recruited to the vicinity of CD19,the signaling subunit of the co-receptor complex. We detail the recruitment kinetics of signaling effectors to CD19 and identify previously uncharacterized mediators of B cell activation. We show that the glutamate transporter SLC1A1 is responsible for mediating rapid metabolic reprogramming and for maintaining redox homeostasis during B cell activation. This study provides a comprehensive map of BCR signaling and a rich resource for uncovering the complex signaling networks that regulate activation. View Publication

Mononuclear phagocytes (MNP),including macrophages and dendritic cells form an essential component of primary responses to environmental hazards and toxic exposures. This is particularly important in disease conditions such as asthma and allergic airway disease,where many different cell types are present. In this study,we differentiated CD34+ haematopoietic stem cells towards different populations of MNP in an effort to understand how different cell subtypes present in inflammatory disease microenvironments respond to the common allergen house dust mite (HDM). Using single cell mRNA sequencing,we demonstrate that macrophage subtypes MC SPP1+ and MLC MARCO+ display different patterns of gene expression after HDM challenge,noted especially for the chemokines CXCL5,CXCL8,CCL5 and CCL15. MLC CD206Hi alternatively activated macrophages displayed the greatest changes in expression,while neutrophil and monocyte populations did not respond. Further work investigated how pollutant diesel exhaust particles could modify these transcriptional responses and revealed that CXC but not CC type chemokines were further upregulated. Through the use of diesel particles with adsorbed material removed,we suggest that soluble pollutants on these particles are the active constituents responsible for the modifying effects on HDM. This study highlights that environmental exposures may influence tissue responses dependent on which MNP cell type is present,and that these should be considerations when modelling such events in vitro. Understanding the nuanced responsiveness of different immune cell types to allergen and pollutant exposure also contributes to a better understanding of how these exposures influence the development and exacerbation of human disease. View Publication

The development of haematopoiesis involves the coordinated action of numerous genes,some of which are implicated in haematological malignancies. However,the biological function of many genes remains elusive and unknown functional genes are likely to remain to be uncovered. Here,we report a previously uncharacterised gene in haematopoiesis,identified by screening mutant embryonic stem cells. The gene,‘ attenuated haematopoietic development ( Ahed )’,encodes a nuclear protein. Conditional knockout (cKO) of Ahed results in anaemia from embryonic day 14.5 onward,leading to prenatal demise. Transplantation experiments demonstrate the incapacity of Ahed -deficient haematopoietic cells to reconstitute haematopoiesis in vivo. Employing a tamoxifen-inducible cKO model,we further reveal that Ahed deletion impairs the intrinsic capacity of haematopoietic cells in adult mice. Ahed deletion affects various pathways,and published databases present cancer patients with somatic mutations in Ahed . Collectively,our findings underscore the fundamental roles of Ahed in lifelong haematopoiesis,implicating its association with malignancies. Subject terms: Lymphopoiesis,Development,Haematopoietic stem cells,Differentiation View Publication

The clinical success of CRISPR therapies hinges on the safety and efficacy of Cas proteins. The Cas9 from Francisella novicida (FnCas9) is highly precise,with a negligible affinity for mismatched substrates,but its low cellular targeting efficiency limits therapeutic use. Here,we rationally engineer the protein to develop enhanced FnCas9 (enFnCas9) variants and broaden their accessibility across human genomic sites by ~3.5-fold. The enFnCas9 proteins with single mismatch specificity expanded the target range of FnCas9-based CRISPR diagnostics to detect the pathogenic DNA signatures. They outperform Streptococcus pyogenes Cas9 (SpCas9) and its engineered derivatives in on-target editing efficiency,knock-in rates,and off-target specificity. enFnCas9 can be combined with extended gRNAs for robust base editing at sites which are inaccessible to PAM-constrained canonical base editors. Finally,we demonstrate an RPE65 mutation correction in a Leber congenital amaurosis 2 (LCA2) patient-specific iPSC line using enFnCas9 adenine base editor,highlighting its therapeutic utility. Subject terms: CRISPR-Cas9 genome editing,Molecular medicine,Genetic engineering,CRISPR-Cas9 genome editing View Publication

The scarcity of reliable devices for diagnosis of Animal African trypanosomiasis (AAT) presents a limitation to control of the disease. Existing high-sensitivity technologies such as PCR are costly,laborious,time-consuming,complex,and require skilled personnel. Hence,utilisation of most diagnostics for AAT is impracticable in rural areas,where the disease occurs. A more accessible point-of-care test (POCT) capable of detecting cryptic active infection,without relying on expensive equipment,would facilitate AAT detection. In turn,early management,would reduce disease incidence and severity. Today,several ongoing research projects aim at modifying complex immunoassays into POCTs. In this context,we report the development of an antigen (Ag) detection sandwich ELISA prototype for diagnosis of T . congolense infections,which is comprised of nanobody (Nb) and monoclonal antibody (mAb) reagents. The Nb474H used here,originated from a past study. Briefly,the Nb was engineered starting from mRNA of peripheral blood lymphocytes of an alpaca immunized with soluble lysate of Trypanosoma congolense (TC13). T . congolense glycosomal fructose-1,6-bisphosphate aldolase ( Tco ALD) was discovered as the cognate Ag of Nb474H. In this study,splenocytes were harvested from a mouse immunized with recombinant Tco ALD and fused with NS01 cells to generate a hybridoma library. Random screening of the library on Tco ALD retrieved a lone binder,designated IgM8A2. Using Nb474H as Ag-capture reagent in combination with the IgM8A2 monoclonal antibody Ag-detection reagent resulted in a tool that effectively detects native Tco ALD released during infection by T . congolense parasites. Hitherto,development of POCT for detection of active trypanosome infection is elusive. The Nanobody/Monoclonal Antibody (Nb/mAb) “hybrid” sandwich technology offers prospects for exploration,using the unique specificity of Nb as a key determinant in Ag capturing,while using the versatility of monoclonal Ab to adapt to various detection conditions. View Publication

Autoimmune thyroid disease (AITD) is a common autoimmune disease. In a GWAS meta-analysis of 110,945 cases and 1,084,290 controls,290 sequence variants at 225 loci are associated with AITD. Of these variants,115 are previously unreported. Multiomics analysis yields 235 candidate genes outside the MHC-region and the findings highlight the importance of genes involved in T-cell regulation. A rare 5’-UTR variant (rs781745126-T,MAF = 0.13% in Iceland) in LAG3 has the largest effect (OR = 3.42,P = 2.2 × 10 −16 ) and generates a novel start codon for an open reading frame upstream of the canonical protein translation initiation site. rs781745126-T reduces mRNA and surface expression of the inhibitory immune checkpoint LAG-3 co-receptor on activated lymphocyte subsets and halves LAG-3 levels in plasma among heterozygotes. All three homozygous carriers of rs781745126-T have AITD,of whom one also has two other T-cell mediated diseases,that is vitiligo and type 1 diabetes. rs781745126-T associates nominally with vitiligo (OR = 5.1,P = 6.5 × 10 −3 ) but not with type 1 diabetes. Thus,the effect of rs781745126-T is akin to drugs that inhibit LAG-3,which unleash immune responses and can have thyroid dysfunction and vitiligo as adverse events. This illustrates how a multiomics approach can reveal potential drug targets and safety concerns. Subject terms: Genetics research,Disease genetics,Thyroid diseases,Genome-wide association studies,Gene expression View Publication

Haemophilus influenzae is a human respiratory pathogen and inhabits the human respiratory tract as its only niche. Despite this,the molecular mechanisms that allow H . influenzae to establish persistent infections of human epithelia are not well understood. Here,we have investigated how H . influenzae adapts to the host environment and triggers the host immune response using a human primary cell-based infection model that closely resembles human nasal epithelia (NHNE). Physiological assays combined with dualRNAseq revealed that NHNE from five healthy donors all responded to H . influenzae infection with an initial,‘unproductive’ inflammatory response that included a strong hypoxia signature but did not produce pro-inflammatory cytokines. Subsequently,an apparent tolerance to large extracellular and intraepithelial burdens of H . influenzae developed,with NHNE transcriptional profiles resembling the pre-infection state. This occurred in parallel with the development of intraepithelial bacterial populations,and appears to involve interruption of NFκB signalling. This is the first time that large-scale,persistence-promoting immunomodulatory effects of H . influenzae during infection have been observed,and we were able to demonstrate that only infections with live,but not heat-killed H . influenzae led to immunomodulation and reduced expression of NFκB-controlled cytokines such as IL-1β,IL-36γ and TNFα. Interestingly,NHNE were able to re-activate pro-inflammatory responses towards the end of the 14-day infection,resulting in release of IL-8 and TNFα. In addition to providing first molecular insights into mechanisms enabling persistence of H . influenzae in the host,our data further indicate the presence of infection stage-specific gene expression modules,highlighting fundamental similarities between immune responses in NHNE and canonical immune cells,which merit further investigation. View Publication