Ferritin, a key regulator of iron homeostasis in macrophages, has been reported to confer host defenses against Mycobacterium tuberculosis (Mtb) infection. Nuclear receptor coactivator 4 (NCOA4) was recently identified as a cargo receptor in ferritin degradation. Here, we show that Mtb infection enhanced NCOA4-mediated ferritin degradation in macrophages, which in turn increased the bioavailability of iron to intracellular Mtb and therefore promoted bacterial growth. Of clinical relevance, the upregulation of FTH1 in macrophages was associated with tuberculosis (TB) disease progression in humans. Mechanistically, Mtb infection enhanced NCOA4-mediated ferritin degradation through p38/AKT1- and TRIM21-mediated proteasomal degradation of HERC2, an E3 ligase of NCOA4. Finally, we confirmed that NCOA4 deficiency in myeloid cells expedites the clearance of Mtb infection in a murine model. Together, our findings revealed a strategy by which Mtb hijacks host ferritin metabolism for its own intracellular survival. Therefore, this represents a potential target for host-directed therapy against tuberculosis.
Youchao Dai, Chuanzhi Zhu, Wei Xiao, Kaisong Huang, Xin Wang, Chenyan Shi, Dachuan Lin, Huihua Zhang, Xiaoqian Liu, Bin Peng, Yi Gao, Cui Hua Liu, Baoxue Ge, Stefan H.E. Kaufmann, Carl G. Feng, Xinchun Chen, Yi Cai
Many hepatocellular carcinoma (HCC) patients do not respond to the first-line immune checkpoint inhibitor treatment. Immunization with effective cancer vaccines is an attractive alternative approach to immunotherapy. However, its efficacy remains insufficiently evaluated in preclinical studies. Here, we investigated HCC-associated self/tumor antigen, α-fetoprotein (AFP) based vaccine immunization for treating AFP (+) HCC mouse models. We found that AFP immunization effectively induced AFP-specific CD8+ T cells in vivo. However, these CD8+ T cells expressed exhaustion markers, including PD1, LAG3, and Tim3. Furthermore, the AFP vaccine effectively prevented c-MYC/Mcl1 HCC initiation when administrated before tumor formation, while it was ineffective against full-blown c-MYC/Mcl1 tumors. Similarly, anti-PD1 and anti-PD-L1 monotherapy showed no efficacy in this murine HCC model. In striking contrast, AFP immunization combined with anti-PD-L1 treatment triggered significant inhibition of HCC progression in most liver tumor nodules, while combining with anti-PD1 induced slower tumor progression. Mechanistically, we demonstrated that HCC intrinsic PD-L1 expression was the primary target of anti-PD-L1 in this combination therapy. Notably, the combination therapy had a similar therapeutic effect in the cMet/β-Catenin mouse HCC model. These findings suggest that combining the AFP vaccine and immune checkpoint inhibitors may be effective for AFP (+) HCC treatment.
Xinjun Lu, Shanshan Deng, Jiejie Xu, Benjamin L. Green, Honghua Zhang, Guofei Cui, Yi Zhou, Yi Zhang, Hongwei Xu, Fapeng Zhang, Rui Mao, Sheng Zhong, Thorsten Cramer, Matthias Evert, Diego F. Calvisi, Yukai He, Chao Liu, Xin Chen
Programmed death ligand 1 (PD-L1) is an immune checkpoint protein frequently expressed in human cancers, which contributes to immune evasion through its binding to PD-1 on activated T cells. Unveiling the mechanisms underlying PD-L1 expression is essential for understanding the impacts of immunosuppressive microenvironment, and also crucial for the purpose of re-boosting anti-tumour immunity. However, how PD-L1 is regulated, particularly at translational levels, remains largely unknown. Here, we discovered that a lncRNA, HIF-1α inhibitor at translation level (HITT), was transactivated by E2F1 under interferon-γ stimulation. It bound and co-ordinated with Regulator of G Protein Signalling 2 (RGS2) in binding to the 5ʹ-untranslated region (UTR) of PD-L1, resulting in reduced PD-L1 translation. HITT expression enhanced T cell-mediated cytotoxicity both in vitro and in vivo in a PD-L1 dependent manner. The clinical correlation between HITT/PD-L1, RGS2/PD-L1 expression was also detected in breast cancer tissues. Together, these findings demonstrate the role of HITT in antitumour T cell immunity, highlighting activation of HITT as a potential therapeutic strategy to enhance cancer immunotherapy.
Qingyu Lin, Tong Liu, Xingwen Wang, Guixue Hou, Zhiyuan Xiang, Wenxin Zhang, Shanliang Zheng, Dong Zhao, Qibin Leng, Xiaoshi Zhang, Minqiao Lu, Tianqi Guan, Hao Liu, Ying Hu
STAT2 is a transcription factor activated by type I and III interferons. We report 23 patients with loss of function variants causing autosomal recessive (AR), complete STAT2 deficiency. Both cells transfected with mutant STAT2 alleles and the patients’ cells display impaired expression of interferon stimulated genes and impaired control of in-vitro viral infections. Clinical manifestations from early childhood onward include severe adverse reaction to live attenuated viral vaccines (LAV, 12/17 patients) and severe viral infections (10/23 patients), particularly critical influenza pneumonia (6 patients), critical COVID-19 pneumonia (1 patient), and herpes simplex encephalitis (1 patient). The patients display various types of hyperinflammation, often triggered by viral infection or after LAV administration, which probably attests to unresolved viral infection in the absence of STAT2-dependent type I and III IFN immunity (7 patients). Transcriptomic analysis reveals that circulating monocytes, neutrophils, and CD8 memory T cells contribute to this inflammation. Eight patients died (35%, 2 months-7 years): one of HSV-1 encephalitis, one of fulminant hepatitis, and six of heart failure during a febrile illness with no identified etiology. 15 patients remain alive (5-40 years). AR complete STAT2 deficiency underlies severe viral diseases, with half of the patients surviving into teenage years or adulthood.
Giorgia Bucciol, Leen Moens, Masato Ogishi, Darawan Rinchai, Daniela Matuozzo, Mana Momenilandi, Nacim Kerrouche, Catherine M. Cale, Elsa R. Treffeisen, Mohammad Al Salamah, Bandar K. Al-Saud, Alain Lachaux, Remi Duclaux-Loras, Marie Meignien, Aziz Bousfiha, Ibtihal Benhsaien, Anna Shcherbina, Anna Roppelt, Florian Gothe, Nadhira Houhou-Fidouh, Scott J. Hackett, Lisa M. Bartnikas, Michelle C. Maciag, Mohammed F. Alosaimi, Janet Chou, Reem W. Mohammed, Bishara J. Freij, Emmanuelle Jouanguy, Shen-Ying Zhang, Stephanie Boisson-Dupuis, Vivien Béziat, Qian Zhang, Christopher J.A. Duncan, Sophie Hambleton, Jean-Laurent Casanova, Isabelle Meyts
Patients with small cell lung cancer (SCLC) generally have a poor prognosis and a median overall survival of only about 13 months, indicating the urgent need for novel therapies. Delta-like protein 3 (DLL3) has been identified as a tumor-specific cell surface marker on neuroendocrine cancers including SCLC. In this study, we developed a chimeric antigen receptor (CAR) against DLL3 that displays antitumor efficacy in xenograft and murine SCLC models. CAR T cell expression of the proinflammatory cytokine interleukin-18 (IL-18) greatly enhanced the potency of DLL3-targeting CAR T cell therapy. In a murine metastatic SCLC model, IL-18 production increased the activation of both CAR T cells and endogenous tumor-infiltrating lymphocytes. We also observed an increased infiltration, repolarization and activation of antigen-presenting cells. Lastly, human IL-18-secreting anti-DLL3 CAR T cells showed an increased memory phenotype, less exhaustion and induced durable responses in multiple SCLC models, an effect that could be further enhanced with anti-PD-1 blockade. Together, these results define DLL3-targeting CAR T cells that produce IL-18 as a promising novel strategy against DLL3-expressing solid tumors.
Janneke E. Jaspers, Jonathan F. Khan, William D. Godfrey, Andrea V. Lopez, Metamia Ciampricotti, Charles M. Rudin, Renier J. Brentjens
Mucosal infections pose a significant global health burden. Antigen-specific tissue resident T cells are critical to maintaining barrier immunity. Previous studies in the context of systemic infection suggest that memory CD8 T cells may also provide innate-like protection against antigenically unrelated pathogens independent of TCR engagement. Whether "bystander T cell activation" is also an important defense mechanism in the mucosa is poorly understood. Here, we investigated if innate-like memory CD8 T cells could protect against a model mucosal virus infection, herpes simplex virus 2 (HSV-2). We found that immunization with an irrelevant antigen delayed disease progression from lethal HSV-2 challenge, suggesting that memory CD8 T cells may mediate protection despite the lack of antigen-specificity. Upon HSV-2 infection, we observed an early infiltration, rather than substantial local proliferation, of antigen-non-specific CD8 T cells, which became bystander-activated only within the infected mucosal tissue. Critically, we show that bystander-activated CD8 T cells are sufficient to reduce early viral burden after HSV-2 infection. Finally, local cytokine cues within the tissue microenvironment after infection were sufficient for bystander activation of mucosal tissue memory CD8 T cells from mice and humans. Altogether, our findings suggest that local bystander-activation of CD8 memory T cells contribute a fast and effective innate-like response to infection in mucosal tissue.
Tanvi Arkatkar, Veronica A. Davé, Irene Cruz Talavera, Jessica B. Graham, Jessica L. Swarts, Sean M. Hughes, Timothy A. Bell, Pablo Hock, Joe Farrington, Ginger D. Shaw, Anna C. Kirby, Michael Fialkow, Meei-Li Huang, Keith R. Jerome, Martin T. Ferris, Florian Hladik, Joshua T. Schiffer, Martin Prlic, Jennifer M. Lund
Anti-tumor activity of CD8+ T cells is potentially restrained by a variety of negative regulatory pathways that are triggered in tumor microenvironment, yet exact mechanisms remain incompletely defined. Here we report that intrinsic RIG-I in CD8+ T cells represents such a factor, as evidenced by observations that tumor-restricting effect of endogenous or adoptively transferred CD8+ T cells was enhanced by intrinsic Rig-I deficiency or inhibition, with the increased accumulation, survival, and cytotoxicity of tumor-infiltrating CD8+ T cells. Mechanistically, T cell activation-induced RIG-I upregulation restrained STAT5 activation via competitively sequestering HSP90. In accordance, the frequency of RIG-I+ tumor-infiltrating CD8+ T cells in human colon cancer positively correlated with attenuated survival and effector signatures of CD8+ T cells as well as poor prognosis. Collectively, these results implicate RIG-I as a potentially druggable factor for improving CD8+ T cells-based tumor immunotherapy.
Xinyi Jiang, Jian Lin, Chengfang Shangguan, Xiaoyao Wang, Bin Xiang, Juan Chen, Hezhou Guo, Wu Zhang, Jun Zhang, Yan Shi, Jiang Zhu, Hui Yang
Peripheral neuropathy is a frequent complication of type 2 diabetes mellitus (T2DM). We investigated whether human islet amyloid polypeptide (hIAPP), which forms pathogenic aggregates that damage pancreatic islet β-cells in T2DM, is involved in T2DM-associated peripheral neuropathy. In vitro, hIAPP incubation with sensory neurons reduced neurite outgrowth and increased levels of mitochondrial reactive oxygen species. Transgenic hIAPP mice that have elevated plasma hIAPP levels without hyperglycemia developed peripheral neuropathy as evidenced by pain-associated behavior and reduced intra-epidermal nerve fiber (IENF) density. Similarly, hIAPP Ob/Ob mice that have hyperglycaemia in combination with elevated plasma hIAPP levels had signs of neuropathy, although more aggravated.In wild-type mice, intraplantar and intravenous hIAPP injections induced long-lasting allodynia and decreased IENF density. Non-aggregating murine IAPP, mutated hIAPP (Pramlintide), or hIAPP with pharmacologically inhibited aggregation did not induce these effects. T2DM patients had reduced IENF density and more hIAPP oligomers in the skin compared to non-T2DM controls. Thus, we provide evidence that hIAPP aggregation is neurotoxic and mediates peripheral neuropathy in mice. The increased abundance of hIAPP aggregates in the skin of T2DM patients supports the notion that hIAPP is a potential contributor to T2DM neuropathy in humans.
Mohammed M.H. Albariqi, Sabine Versteeg, Elisabeth M. Brakkee, J. Henk Coert, Barend O.W. Elenbaas, Judith Prado, C. Erik Hack, Jo W.M. Höppener, Niels Eijkelkamp
The rapid evolution of the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) Omicron variants has emphasized the need to identify antibodies with broad neutralizing capabilities to inform future monoclonal therapies and vaccination strategies. Herein, we identified S728-1157, a broadly neutralizing antibody (bnAb) targeting the receptor-binding site (RBS) that was derived from an individual previously infected with wildtype SARS-CoV-2 prior to the spread of variants of concern (VOCs). S728-1157 demonstrated broad cross-neutralization of all dominant variants including D614G, Beta, Delta, Kappa, Mu, and Omicron (BA.1/BA.2/BA.2.75/BA.4/BA.5/BL.1/XBB). Furthermore, S728-1157 protected hamsters against in vivo challenges with wildtype, Delta, and BA.1 viruses. Structural analysis showed that this antibody targets a class 1/RBS-A epitope in the receptor binding domain (RBD) via multiple hydrophobic and polar interactions with its heavy chain complementarity determining region region 3 (CDR-H3), in addition to common motifs in CDR-H1/CDR-H2 of class 1/RBS-A antibodies. Importantly, this epitope was more readily accessible in the open and prefusion state, or in the hexaproline (6P)-stabilized spike constructs, as compared to diproline (2P) constructs. Overall, S728-1157 demonstrates broad therapeutic potential, and may inform target-driven vaccine design against future SARS-CoV-2 variants.
Siriruk Changrob, Peter J. Halfmann, Hejun Liu, Jonathan L. Torres, Joshua J.C. McGrath, Gabriel Ozorowski, Lei Li, G. Dewey Wilbanks, Makoto Kuroda, Tadashi Maemura, Min Huang, Nai-Ying Zheng, Hannah L. Turner, Steven A. Erickson, Yanbin Fu, Atsuhiro Yasuhara, Gagandeep Singh, Brian Monahan, Jacob Mauldin, Komal Srivastava, Viviana Simon, Florian Krammer, D. Noah Sather, Andrew B Ward, Ian A. Wilson, Yoshihiro Kawaoka, Patrick C. Wilson
CD8+ exhausted T-cells (Tex) are heterogeneous. PD-1 inhibitors reinvigorate progenitor Tex, which subsequently differentiate into irresponsive terminal Tex. Maintaining durable proliferative capacity of progenitor Tex is important but remains unclear. Here, we showed that low-dose DNA demethylating agent decitabine-pretreated CD8+ progenitor Tex had enhanced proliferation and effector function against tumors after anti-PD-1 treatment in vitro. Decitabine-plus-anti-PD-1 treatment promoted the activation and expansion of tumor-infiltrated CD8+ progenitor Tex and efficiently suppressed tumor growth in multiple tumor models. Transcriptional and epigenetic profiling of tumor-infiltrated T cells demonstrated that decitabine-plus-anti-PD-1 combination markedly elevated the clonally expansion and cytolytic activity of progenitor Tex compared with anti-PD-1 monotherapy and restrained CD8+ T-cell terminal differentiation. Strikingly, decitabine-plus-anti-PD-1 sustained the expression and activity of AP-1 transcription factor JunD, which was reduced following PD-1 blockade therapy. Downregulation of JunD repressed T cell proliferation and activating JNK/AP-1 signaling in CD8+ T-cells enhanced the antitumor capacity of PD-1 inhibitors. Together, epigenetic agent remodels CD8+ progenitor Tex and improves responsiveness to anti-PD-1 therapy.
Xiang Li, Yaru Li, Liang Dong, Yixin Chang, Xingying Zhang, Chunmeng Wang, Meixia Chen, Xiaochen Bo, Hebing Chen, Weidong Han, Jing Nie