Your search keyword '"Jing H. Wang"' showing total 34 results

1. Differential tumor immune microenvironment coupled with tumor progression or tumor eradication in HPV-antigen expressing squamous cell carcinoma (SCC) models

Author

Arpitha H. Shivarudrappa, Jessy John, Monika Vashisht, Huaibin Ge, Silvia Liu, Jingxin Chen, Karen Siddoway, Rui Dong, Zhangguo Chen, and Jing H. Wang

Subjects

immunological heterogeneity, head and neck squamous cell carcinoma, individualized anti-tumor immune responses, tumor immune microenvironment, T cell receptor, Immunologic diseases. Allergy, RC581-607

Abstract

Human papilloma virus (HPV) is an etiological factor of head and neck squamous cell carcinoma (HNSCC). To investigate the role of HPV antigen in anti-tumor immunity, we established mouse models by expressing HPV16 E6 and E7 in a SCC tumor cell line. We obtained two HPV antigen-expressing clones (C-225 and C-100) transplantable into C57BL/6 recipients. We found that C-225 elicited complete eradication in C57BL/6 mice (eradicated), whereas C-100 grew progressively (growing). We examined immune tumor microenvironment (TME) using flow cytometry and found that eradicated or growing tumors exhibited differential immune profiles that may influence the outcome of anti-tumor immunity. Surprisingly, the percentage of CD8 and CD4 tumor-infiltrating lymphocytes (TILs) was much higher in growing (C-100) than eradicated (C-225) tumor. However, the TILs upregulated PD-1 and LAG-3 more potently and exhibited impaired effector functions in growing tumor compared to their counterparts in eradicated tumor. C-225 TME is highly enriched with myeloid cells, especially polymorphonuclear (PMN) myeloid-derived suppressor cells (MDSC), whereas the percentage of M-MDSC and tumor-associated macrophages (TAMs) was much higher in C-100 TME, especially M2-TAMs (CD206+). The complete eradication of C-225 depended on CD8 T cells and elicited anti-tumor memory responses upon secondary tumor challenge. We employed DNA sequencing to identify differences in the T cell receptor of peripheral blood lymphocytes pre- and post-secondary tumor challenge. Lastly, C-225 and C-100 tumor lines harbored different somatic mutations. Overall, we uncovered differential immune TME that may underlie the divergent outcomes of anti-tumor immunity by establishing two SCC tumor lines, both of which express HPV16 E6 and E7 antigens. Our experimental models may provide a platform for pinpointing tumor-intrinsic versus host-intrinsic differences in orchestrating an immunosuppressive TME in HNSCCs and for identifying new targets that render tumor cells vulnerable to immune attack.

Published

2024

2. TRAF2/3 deficient B cells resist DNA damage-induced apoptosis via NF-κB2/XIAP/cIAP2 axis and IAP antagonist sensitizes mutant lymphomas to chemotherapeutic drugs

Author

Monika Vashisht, Huaibin Ge, Jessy John, Harlie A. McKelvey, Jingxin Chen, Zhangguo Chen, and Jing H. Wang

Subjects

Cytology, QH573-671

Abstract

Abstract Deletion of TRAF2 or TRAF3 in B cells prolongs their survival. However, it remains unknown whether deletion of such factors affects B cells’ ability to tolerate DNA damage, which can be induced by chemotherapeutics and cause apoptosis. Genetic alterations of TRAF2 or TRAF3 are observed in subsets of human B-cell lymphomas and B cell-specific deletion of TRAF3 led to lymphoma development in aged mice. However, it remains unknown whether double deficiency of TRAF2 and TRAF3 accelerates B-cell lymphomagenesis. Here, we showed that B cell-specific TRAF2/3 double deficient (B-TRAF2/3-DKO) B cells were remarkably more resistant to DNA damage-induced apoptosis via upregulating cIAP2 and XIAP, which in turn attenuates caspase-3 activation. Mechanistically, resistance to DNA damage-induced apoptosis required NF-κB2, which effects by upregulating XIAP and cIAP2 transcription. B-TRAF2/3-DKO mice exhibited a shorter lifespan and succumbed to splenomegaly and lymphadenopathy. Unexpectedly, the incidence of B-cell lymphoma development in B-TRAF2/3-DKO mice was relatively rare (∼10%). Sequencing B cell receptor repertoire of diseased B cells revealed that TRAF2/3 deficiency caused abnormal oligoclonal or clonal expansion of B cells. While a fraction of mutant B cells (25–43%) from aged diseased mice harbored recurrent chromosomal translocations, primary B cells isolated from young B-TRAF2/3-DKO mice had no detectable chromosomal alterations, suggesting that TRAF2/3 deficiency per se does not cause evident genomic instability in B cells. Chemo-resistant TRAF3-deficient B-cell lymphomas were sensitized to chemotherapeutic drugs by blocking IAP activity using IAP antagonist. We conclude that double deficiency of TRAF2 and TRAF3 does not accelerate B-cell lymphomagenesis. Our studies provide insight into mechanisms regulating DNA damage-induced apoptosis and may help develop effective therapies targeting mutant B-cell lymphomas using IAP antagonist.

Published

2023

3. Differential responses to immune checkpoint inhibitor dictated by pre-existing differential immune profiles in squamous cell carcinomas caused by same initial oncogenic drivers

Author

Samantha M. Y. Chen, Vince Popolizio, Rachel A. Woolaver, Huaibin Ge, Alexandra L. Krinsky, Jessy John, Etienne Danis, Yao Ke, Yonatan Kramer, Li Bian, Andrew G. Nicklawsky, Dexiang Gao, Silvia Liu, Zhangguo Chen, Xiao-jing Wang, and Jing H. Wang

Subjects

Cancer immunotherapy, Head and neck cancers, Immune tumor microenvironment, Tumor infiltrating lymphocytes, p53 mutations, PIK3CA hyperactivation, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background While immune checkpoint inhibitors (ICI) were approved for head and neck squamous cell carcinomas (HNSCCs), the response rate remains relatively low. Mechanisms underlying ICI unresponsiveness versus sensitivity are not fully understood. Method To better delineate differential responses to ICI treatment, we employed mouse SCC models, termed KPPA tumors that were caused by deleting p53 and hyperactivating PIK3CA, two most frequently mutated genes in human HNSCCs. We transplanted two KPPA tumor lines (TAb2 versus TCh3) into C57BL/6 recipients and examined the immune tumor microenvironment using flow cytometry. Furthermore, we employed single-cell RNA sequencing to identify the difference in tumor infiltrating lymphocytes (TILs). Results We found that different KPPA tumors exhibited heterogeneous immune profiles pre-existing treatment that dictated their sensitivity or unresponsiveness to anti-PD-L1. Unresponsive TAb2 tumors were highly enriched with functional tumor-associated macrophages (TAMs), especially M2-TAMs. In contrast, sensitive TCh3 tumors contained more CD8 TILs with better effector functions. TAb2 tumor cells drastically expanded F4/80+ TAMs from bone marrow precursors, requiring CSF1 and VEGF. Consistently, a higher combined expression of VEGF-C and CSF1 predicts worse survival in PIK3CAAmp/TP53Mutated HNSCC patients. Unresponsive TAb2 tumors upregulated distinct signaling pathways that correlate with aggressive tumor phenotypes. While anti-PD-L1 did not affect the TME of TAb2 tumors, it significantly increased the number of CD8 TILs in TCh3 tumors. Conclusions We uncovered tumor-intrinsic differences that may underlie the differential responses to ICI by establishing and employing two SCC tumor lines, TAb2 vs. TCh3, both of which harbor TP53 deletion and PIK3CA hyperactivation. Our study indicates the limitation of stratifying cancers according to their genetic alterations and suggests that evaluating HNSCC tumor-intrinsic cues along with immune profiles in the TME may help better predict ICI responses. Our experimental models may provide a platform for pinpointing tumor-intrinsic differences underlying an immunosuppressive TME in HNSCCs and for testing combined immunotherapies targeting either tumor-specific or TAM-specific players to improve ICI efficacy.

Published

2022

4. Host-specific differences in top-expanded TCR clonotypes correlate with divergent outcomes of anti-PD-L1 treatment in responders versus non-responders

Author

Jessy John, Samantha M. Y. Chen, Rachel A. Woolaver, Huaibin Ge, Monika Vashisht, Ziyu Huang, Zhangguo Chen, and Jing H. Wang

Subjects

immune checkpoint inhibitor (ICI), T cell receptor sequencing, TCR repertoire, individualized anti-tumor immune responses, head and neck squamous cell carcinoma (HNSCC), Immunologic diseases. Allergy, RC581-607

Abstract

Immune checkpoint inhibitors (ICIs) have revolutionized cancer treatment; however, the responses to ICI treatment are highly variable in different individuals and the underlying mechanisms remain poorly understood. Here, we employed a mouse squamous cell carcinoma (SCC) model where tumor-bearing recipients diverged into responders (R) versus non-responders (NR) upon anti-PD-L1 treatment. We performed in-depth TCRβ sequencing with immunoSEQ platform to delineate the differences in CD8 tumor-infiltrating lymphocytes (TILs). We found that R and NR CD8 TILs both exhibited evidence of clonal expansion, suggesting activation regardless of response status. We detected no differences in clonal expansion or clonal diversity indexes between R vs. NR. However, the top expanded (>1%) TCRβ clonotypes appeared to be mutually exclusive between R and NR CD8 TILs, showing a preferential expansion of distinct TCRβ clonotypes in response to the same SCC tumor in R vs. NR. Notably, the mutual exclusivity of TCR clonotypes in R vs. NR was only observed when top TCRβ clonotypes were counted, because such top-expanded clonotypes are present in the opposite outcome group at a much lower frequency. Many TCRβ sequences were detected in only one recipient at a high frequency, implicating highly individualized anti-tumor immune responses. We conclude that differences in the clonal frequency of top TCR clonotypes between R and NR CD8 TILs may be one of the factors underlying differential anti-PD-L1 responses. This notion may offer a novel explanation for variable ICI responses in different individuals, which may substantially impact the development of new strategies for personalized cancer immunotherapy.

Published

2023

5. Why responses to immune checkpoint inhibitors are heterogeneous in head and neck cancers: Contributions from tumor-intrinsic and host-intrinsic factors

Author

Zhangguo Chen, Jessy John, and Jing H. Wang

Subjects

immune checkpoint inhibitors, tumor heterogeneity, immunological heterogeneity, individualized anti-tumor immune responses, TCR repertoire, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Immune checkpoint inhibitors (ICIs) have revolutionized cancer treatment including in head and neck squamous cell carcinomas (HNSCCs); however, only a fraction of HNSCC patients respond to ICI, whereas the majority fail to do so. The mechanisms underlying such variable responses remain incompletely understood. A better understanding of such mechanisms may broaden the spectrum of responding patients and enhance the rate of ICI response. HNSCCs exhibit a high level of genetic heterogeneity, manifested as mutations or amplifications of oncogenes (e.g., PIK3CA) and mutations of tumor suppressor genes (e.g., TP53). The immune tumor microenvironment (TME) of HNSCCs also varies significantly in composition and in relative abundance of distinct immune subsets such as CD8 tumor-infiltrating lymphocytes (TILs) or tumor-associated macrophages (TAMs), which represents a high degree of immunological heterogeneity. Here, we briefly discuss how heterogeneous ICI responses may be attributed to tumor-intrinsic factors, including genetic, transcriptional, and functional variations in tumor cells, and host-intrinsic factors, including cellular composition of the TME (e.g., CD8 TILs and TAMs), and host-intrinsic differences in the T cell receptor (TCR) repertoire of CD8 TILs. We also discuss the potential impact of these factors on designing strategies for personalized immunotherapy of HNSCCs.

Published

2022

6. Divergent outcomes of anti-PD-L1 treatment coupled with host-intrinsic differences in TCR repertoire and distinct T cell activation states in responding versus non-responding tumors

Author

Jessy John, Rachel A. Woolaver, Vince Popolizio, Samantha M. Y. Chen, Huaibin Ge, Alexandra L. Krinsky, Monika Vashisht, Yonatan Kramer, Zhangguo Chen, and Jing H. Wang

Subjects

immunological heterogeneity, head and neck squamous cell carcinoma, single cell-T cell receptor sequencing, individualized anti-tumor immune responses, TCR repertoire, Immunologic diseases. Allergy, RC581-607

Abstract

Differential responses to immune checkpoint inhibitors (ICI) may be attributed to tumor-intrinsic factors or environmental cues; however, these mechanisms cannot fully explain the variable ICI responses in different individuals. Here, we investigate the potential contribution of immunological heterogeneity with a focus on differences in T-cell receptor (TCR) repertoire to ICI responses, which has not been defined previously. To reveal additional factors underlying heterogeneous responses to ICI, we employed a squamous cell carcinoma (SCC) mouse model in which tumor-bearing recipients unambiguously diverged into responders (R) or non-responders (NR) upon anti-PD-L1 treatment. Treatment efficacy absolutely required CD8 T-cells and correlated positively with effector functions of CD8 tumor-infiltrating lymphocytes (TILs). We showed that TCR repertoires exhibited a similar magnitude of clonal expansion in R vs. NR CD8 TILs. However, the top expanded TCR clonotypes appeared to be mutually exclusive between R and NR CD8 TILs, which also occurred in a recipient-specific manner, demonstrating preferential expansion of distinct TCR clonotypes against the same SCC tumor. Unexpectedly, R vs. NR CD8 TILs reached all activation clusters and did not exhibit substantial global differences in transcriptomes. By linking single-cell transcriptomic data with unique TCR clonotypes, CD8 TILs harboring top TCR clonotypes were found to occupy distinct activation clusters and upregulate genes favoring anti-tumor immunity to different extents in R vs. NR. We conclude that stochastic differences in CD8 TIL TCR repertoire and distinct activation states of top TCR clonotypes may contribute to differential anti-PD-L1 responses. Our study suggests that host-intrinsic immunological heterogeneity may offer a new explanation for differential ICI responses in different individuals, which could impact on strategies for personalized cancer immunotherapy.

Published

2022

7. Distinct immune microenvironment profiles of therapeutic responders emerge in combined TGFβ/PD-L1 blockade-treated squamous cell carcinoma

Author

Alexander A. Strait, Rachel A. Woolaver, Spencer C. Hall, Christian D. Young, Sana D. Karam, Antonio Jimeno, Yan Lan, David Raben, Jing H. Wang, and Xiao-Jing Wang

Subjects

Biology (General), QH301-705.5

Abstract

Strait et al describe distinct immune microenvironment profiles of responders versus non-responders to combined TGF-β/PD-L1 blockade in mouse models of squamous cell carcinoma (SCC). The results emphasize the potential of combined TGF-β/PD-L1 targeting and provide important clues to guide personalized SCC immunotherapy.

Published

2021

8. HDAC inhibitors overcome immunotherapy resistance in B-cell lymphoma

Author

Xiaoguang Wang, Brittany C. Waschke, Rachel A Woolaver, Samantha M. Y. Chen, Zhangguo Chen, and Jing H. Wang

Subjects

cancer immunotherapy, HDAC inhibitor, B-cell lymphomas, anti-PD1 resistance, tumor immunogenicity, Cytology, QH573-671, Animal biochemistry, QP501-801

Abstract

Abstract Immunotherapy has been applied successfully to treat B-cell lymphomas in preclinical models or clinical settings. However, immunotherapy resistance is a major challenge for B-cell lymphoma treatment. To overcome this issue, combinatorial therapeutic strategies have been pursued to achieve a better efficacy for treating B-cell lymphomas. One of such strategies is to combine immunotherapy with histone deacetylase (HDAC) inhibitors. HDAC inhibitors can potentially increase tumor immunogenicity, promote anti-tumor immune responses, or reverse immunosuppressive tumor environments. Thus, the combination of HDAC inhibitors and immunotherapy has drawn much attention in current cancer treatment. However, not all HDAC inhibitors are created equal and their net effects are highly dependent on the specific inhibitors used and the HDACs they target. Hence, we suggest that optimal treatment efficacy requires personalized design and rational combination based on prognostic biomarkers and unique profiles of HDAC inhibitors. Here, we discuss the possible mechanisms by which B-cell lymphomas acquire immunotherapy resistance and the effects of HDAC inhibitors on tumor cells and immune cells that could help overcome immunotherapy resistance.

Published

2020

9. How the Signaling Crosstalk of B Cell Receptor (BCR) and Co-Receptors Regulates Antibody Class Switch Recombination: A New Perspective of Checkpoints of BCR Signaling

Author

Zhangguo Chen and Jing H. Wang

Subjects

B cell receptor, class switch recombination, activation-induced deaminase, tumor necrosis factor receptor-associated factor-3, B cell homeostasis, Immunologic diseases. Allergy, RC581-607

Abstract

Mature B cells express B cell antigen receptor (BCR), toll-like receptors (TLR) and TNF family receptors including CD40 and B-cell activating factor receptor (BAFFR). These receptors transduce cellular signals to govern the physiological and pathological processes in B cells including B cell development and differentiation, survival, proliferation, and antibody-mediated immune responses as well as autoimmune diseases and B cell lymphomagenesis. Effective antibody-mediated immune responses require class switch recombination (CSR), a somatic DNA recombination event occurring at the immunoglobulin heavy chain (Igh) gene locus. Mature B cells initially express IgM as their BCR, and CSR enables the B cells to switch from expressing IgM to expressing different classes of antibodies including IgG, IgA or IgE that exhibit distinct effector functions. Here, we briefly review recent findings about how the signaling crosstalk of the BCR with TLRs, CD40 and BAFFR regulates CSR, antibody-mediate immune responses, and B cell anergy.

Published

2021

10. Testing Cancer Immunotherapy in a Human Immune System Mouse Model: Correlating Treatment Responses to Human Chimerism, Therapeutic Variables and Immune Cell Phenotypes

Author

Juan A. Marín-Jiménez, Anna Capasso, Matthew S. Lewis, Stacey M. Bagby, Sarah J. Hartman, Jeremy Shulman, Natalie M. Navarro, Hui Yu, Chris J. Rivard, Xiaoguang Wang, Jessica C. Barkow, Degui Geng, Adwitiya Kar, Ashley Yingst, Dejene M. Tufa, James T. Dolan, Patrick J. Blatchford, Brian M. Freed, Raul M. Torres, Eduardo Davila, Jill E. Slansky, Roberta Pelanda, S. Gail Eckhardt, Wells A. Messersmith, Jennifer R. Diamond, Christopher H. Lieu, Michael R. Verneris, Jing H. Wang, Katja Kiseljak-Vassiliades, Todd M. Pitts, and Julie Lang

Subjects

humanized mice, immunotherapy, checkpoint blockade, preclinical model, combination testing, immune correlates, Immunologic diseases. Allergy, RC581-607

Abstract

Over the past decade, immunotherapies have revolutionized the treatment of cancer. Although the success of immunotherapy is remarkable, it is still limited to a subset of patients. More than 1500 clinical trials are currently ongoing with a goal of improving the efficacy of immunotherapy through co-administration of other agents. Preclinical, small-animal models are strongly desired to increase the pace of scientific discovery, while reducing the cost of combination drug testing in humans. Human immune system (HIS) mice are highly immune-deficient mouse recipients rtpeconstituted with human hematopoietic stem cells. These HIS-mice are capable of growing human tumor cell lines and patient-derived tumor xenografts. This model allows rapid testing of multiple, immune-related therapeutics for tumors originating from unique clinical samples. Using a cord blood-derived HIS-BALB/c-Rag2nullIl2rγnullSIRPαNOD (BRGS) mouse model, we summarize our experiments testing immune checkpoint blockade combinations in these mice bearing a variety of human tumors, including breast, colorectal, pancreatic, lung, adrenocortical, melanoma and hematological malignancies. We present in-depth characterization of the kinetics and subsets of the HIS in lymph and non-lymph organs and relate these to protocol development and immune-related treatment responses. Furthermore, we compare the phenotype of the HIS in lymph tissues and tumors. We show that the immunotype and amount of tumor infiltrating leukocytes are widely-variable and that this phenotype is tumor-dependent in the HIS-BRGS model. We further present flow cytometric analyses of immune cell subsets, activation state, cytokine production and inhibitory receptor expression in peripheral lymph organs and tumors. We show that responding tumors bear human infiltrating T cells with a more inflammatory signature compared to non-responding tumors, similar to reports of “responding” patients in human immunotherapy clinical trials. Collectively these data support the use of HIS mice as a preclinical model to test combination immunotherapies for human cancers, if careful attention is taken to both protocol details and data analysis.

Published

2021

11. Combined deletion of Xrcc4 and Trp53 in mouse germinal center B cells leads to novel B cell lymphomas with clonal heterogeneity

Author

Zhangguo Chen, Mihret T. Elos, Sawanee S. Viboolsittiseri, Katherine Gowan, Sonia M. Leach, Michael Rice, Maxwell D. Eder, Kenneth Jones, and Jing H. Wang

Subjects

Non-homologous end-joining, Genomic instability, Chromosomal translocations, B cell lymphoma, Clonal heterogeneity, Diseases of the blood and blood-forming organs, RC633-647.5, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background Activated B lymphocytes harbor programmed DNA double-strand breaks (DSBs) initiated by activation-induced deaminase (AID) and repaired by non-homologous end-joining (NHEJ). While it has been proposed that these DSBs during secondary antibody gene diversification are the primary source of chromosomal translocations in germinal center (GC)-derived B cell lymphomas, this point has not been directly addressed due to the lack of proper mouse models. Methods In the current study, we establish a unique mouse model by specifically deleting a NHEJ gene, Xrcc4, and a cell cycle checkpoint gene, Trp53, in GC B cells, which results in the spontaneous development of B cell lymphomas that possess features of GC B cells. Results We show that these NHEJ deficient lymphomas harbor translocations frequently targeting immunoglobulin (Ig) loci. Furthermore, we found that Ig translocations were associated with distinct mechanisms, probably caused by AID- or RAG-induced DSBs. Intriguingly, the AID-associated Ig loci translocations target either c-myc or Pvt-1 locus whereas the partners of RAG-associated Ig translocations scattered randomly in the genome. Lastly, these NHEJ deficient lymphomas harbor complicated genomes including segmental translocations and exhibit a high level of ongoing DNA damage and clonal heterogeneity. Conclusions We propose that combined NHEJ and p53 defects may serve as an underlying mechanism for a high level of genomic complexity and clonal heterogeneity in cancers.

Published

2016

12. Chemotherapy-induced differential cell cycle arrest in B-cell lymphomas affects their sensitivity to Wee1 inhibition

Author

Xiaoguang Wang, Zhangguo Chen, Ameet K. Mishra, Alexa Silva, Wenhua Ren, Zenggang Pan, and Jing H. Wang

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

Chemotherapeutic agents, e.g., cytarabine and doxorubicin, cause DNA damage. However, it remains unknown whether such agents differentially regulate cell cycle arrest in distinct types of B-cell lymphomas, and whether this phenotype can be exploited for developing new therapies. We treated various types of B cells, including primary and B lymphoma cells, with cytarabine or doxorubicin, and determined DNA damage responses, cell cycle regulation and sensitivity to a Wee1 inhibitor. We found that cyclin A2/B1 upregulation appears to be an intrinsic programmed response to DNA damage; however, different types of B cells arrest in distinct phases of the cell cycle. The Wee1 inhibitor significantly enhanced the apoptosis of G2 phase-arrested B-cell lymphomas by inducing premature entry into mitosis and mitotic catastrophe, whereas it did not affect G1/S-phase-arrested lymphomas. Cytarabine-induced G1-arrest can be converted to G2-arrest by doxorubicin treatment in certain B-cell lymphomas, which correlates with newly acquired sensitivity to the Wee1 inhibitor. Consequently, the Wee1 inhibitor together with cytarabine or doxorubicin inhibited tumor growth in vitro and in vivo more effectively, providing a potential new therapy for treating B-cell lymphomas. We propose that the differential cell cycle arrest can be exploited to enhance the chemosensitivity of B-cell lymphomas.

Published

2018

13. The role of a newly identified SET domain-containing protein, SETD3, in oncogenesis

Author

Zhangguo Chen, Catherine T. Yan, Yali Dou, Sawanee S. Viboolsittiseri, and Jing H. Wang

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

The SET domain is found in histone methyltransferases and other lysine methyltransferases. SET domain-containing proteins such as MLL1 play a critical role in leukemogenesis, while others such as SETD2 may function as a tumor suppressor in breast cancer and renal cell carcinoma. We recently discovered that SETD3, a well-conserved SET domain-containing protein, was involved in a translocation to the immunoglobulin lambda light chain locus in one of the non-homologous end-joining/p53-deficient peripheral B-cell lymphomas. We showed that a truncated mRNA lacking the SET domain sequences in Setd3 gene was highly expressed in the lymphoma. Furthermore, we found that the truncated SET-less protein displayed oncogenic potential while the full length SETD3 protein did not. Finally, SETD3 exhibits histone methyltransferases activity on nucleosomal histone 3 in a SET-domain dependent manner. We propose that this newly identified Setd3 gene may play an important role in carcinogenesis.

Published

2013

14. Pharmacologic targeting of Nedd8-activating enzyme reinvigorates T-cell responses in lymphoid neoplasia

Author

Xiaoguang Wang, Canping Chen, Dan Vuong, Sonia Rodriguez-Rodriguez, Vi Lam, Carly Roleder, Jing H. Wang, Swetha Kambhampati, Allison Berger, Nathan Pennock, Pallawi Torka, Francisco Hernandez-Ilizaliturri, Tanya Siddiqi, Lili Wang, Zheng Xia, and Alexey V. Danilov

Subjects

Cancer Research, Oncology, Hematology

Abstract

Neddylation is a sequential enzyme-based process which regulates the function of E3 Cullin-RING ligase (CRL) and thus degradation of substrate proteins. Here we show that CD8+ T cells are a direct target for therapeutically relevant anti-lymphoma activity of pevonedistat, a Nedd8-activating enzyme (NAE) inhibitor. Pevonedistat-treated patient-derived CD8+ T cells upregulated TNFα and IFNγ and exhibited enhanced cytotoxicity. Pevonedistat induced CD8+ T-cell inflamed microenvironment and delayed tumor progression in A20 syngeneic lymphoma model. This anti-tumor effect lessened when CD8+ T cells lost the ability to engage tumors through MHC class I interactions, achieved either through CD8+ T-cell depletion or genetic knockout of B2M. Meanwhile, loss of UBE2M in tumor did not alter efficacy of pevonedistat. Concurrent blockade of NAE and PD-1 led to enhanced tumor immune infiltration, T-cell activation and chemokine expression and synergistically restricted tumor growth. shRNA-mediated knockdown of HIF-1α, a CRL substrate, abrogated the in vitro effects of pevonedistat, suggesting that NAE inhibition modulates T-cell function in HIF-1α-dependent manner. scRNA-Seq-based clinical analyses in lymphoma patients receiving pevonedistat therapy demonstrated upregulation of interferon response signatures in immune cells. Thus, targeting NAE enhances the inflammatory T-cell state, providing rationale for checkpoint blockade-based combination therapy.

Published

2023

15. Data from Studying Immunotherapy Resistance in a Melanoma Autologous Humanized Mouse Xenograft

Author

Antonio Jimeno, Rene Gonzalez, Dennis R. Roop, William Robinson, Jing H. Wang, Xiao-Jing Wang, Theresa Medina, Hilary Somerset, Aik-Choon Tan, Dexiang Gao, Randi Yeager, Bettina Miller, Karina Gomez, Cera Nieto, Phuong N. Le, Loni Perrenoud, Julie Reisinger, Tugs-Saikhan Chimed, Stephen B. Keysar, Nathaniel Alzofon, and J. Jason Morton

Abstract

Resistance to immunotherapy is a significant challenge, and the scarcity of human models hinders the identification of the underlying mechanisms. To address this limitation, we constructed an autologous humanized mouse (aHM) model with hematopoietic stem and progenitor cells (HSPC) and tumors from 2 melanoma patients progressing to immunotherapy. Unlike mismatched humanized mouse (mHM) models, generated from cord blood–derived HSPCs and tumors from different donors, the aHM recapitulates a patient-specific tumor microenvironment (TME). When patient tumors were implanted on aHM, mHM, and NOD/SCID/IL2rg−/− (NSG) cohorts, tumors appeared earlier and grew faster on NSG and mHM cohorts. We observed that immune cells differentiating in the aHM were relatively more capable of circulating peripherally, invading into tumors and interacting with the TME. A heterologous, human leukocyte antigen (HLA-A) matched cohort also yielded slower growing tumors than non–HLA-matched mHM, indicating that a less permissive immune environment inhibits tumor progression. When the aHM, mHM, and NSG cohorts were treated with immunotherapies mirroring what the originating patients received, tumor growth in the aHM accelerated, similar to the progression observed in the patients. This rapid growth was associated with decreased immune cell infiltration, reduced interferon gamma (IFNγ)–related gene expression, and a reduction in STAT3 phosphorylation, events that were replicated in vitro using tumor-derived cell lines.Implications:Engrafted adult HSPCs give rise to more tumor infiltrative immune cells, increased HLA matching leads to slower tumor initiation and growth, and continuing immunotherapy past progression can paradoxically lead to increased growth.

Published

2023

16. Supplemental Tables 1-8 from Studying Immunotherapy Resistance in a Melanoma Autologous Humanized Mouse Xenograft

Author

Antonio Jimeno, Rene Gonzalez, Dennis R. Roop, William Robinson, Jing H. Wang, Xiao-Jing Wang, Theresa Medina, Hilary Somerset, Aik-Choon Tan, Dexiang Gao, Randi Yeager, Bettina Miller, Karina Gomez, Cera Nieto, Phuong N. Le, Loni Perrenoud, Julie Reisinger, Tugs-Saikhan Chimed, Stephen B. Keysar, Nathaniel Alzofon, and J. Jason Morton

Abstract

Table S1. Expanded HSPC engraftment into mouse cohorts Table S2. Human immune cell presence in HM tissues Table S3a. CUHM003 mutations present at diagnosis b. Additional CUHM003 mutations present at progression c. CUHM005 mutations present at diagnosis d. Additional CUHM005 mutations present at progression Table S4. Enrichment of immunity-related genes in patient and HM tumors Table S5a. Genes expressed only in the CUHM003 patient and mHM model b. Genes expressed only in the CUHM003 patient and aHM model c. Genes expressed only in the CUHM005 patient and mHM model d. Genes expressed only in the CUHM005 patient and aHM model Table S6. Changes in cancer pathway GSEA expression in patients, their NSG, mHM, and aHM models Table S7. Changes in GSEA hallmark expression between mouse models Table 8a. Genes differentially expressed in CUHM003 after PD1 treatment b. Genes differentially expressed in CUHM005 after PD1 treatment

Published

2023

17. Supplementary Figures 1-3 from Cetuximab Responses in Patients with HNSCC Correlate to Clonal Expansion Feature of Peripheral and Tumor-Infiltrating T Cells with Top T-Cell Receptor Clonotypes

Author

Jing H. Wang, Robert L. Ferris, and Huaibin Ge

Abstract

Supplementary Figure 1-3

Published

2023

18. Supplementary File 1 from Cetuximab Responses in Patients with HNSCC Correlate to Clonal Expansion Feature of Peripheral and Tumor-Infiltrating T Cells with Top T-Cell Receptor Clonotypes

Author

Jing H. Wang, Robert L. Ferris, and Huaibin Ge

Abstract

Supplementary File 1

Published

2023

19. Supplementary Tables 1-2 from Cetuximab Responses in Patients with HNSCC Correlate to Clonal Expansion Feature of Peripheral and Tumor-Infiltrating T Cells with Top T-Cell Receptor Clonotypes

Author

Jing H. Wang, Robert L. Ferris, and Huaibin Ge

Abstract

Supplementary Table 1-2

Published

2023

20. Data from Cetuximab Responses in Patients with HNSCC Correlate to Clonal Expansion Feature of Peripheral and Tumor-Infiltrating T Cells with Top T-Cell Receptor Clonotypes

Author

Jing H. Wang, Robert L. Ferris, and Huaibin Ge

Abstract

Purpose:Cetuximab is a standard-of-care treatment for head and neck squamous cell carcinoma (HNSCC). Well-defined correlative markers of therapeutic responses are still lacking. Characterizing dynamic changes of T-cell receptor (TCR) repertoire in peripheral blood and tumor tissue may facilitate developing markers for cetuximab response in HNSCCs.Experimental Design:We analyzed high-throughput TCRβ sequencing data generated with ImmunoSEQ platform using peripheral blood mononuclear cells (PBMC) and tumor-infiltrating lymphocytes (TIL) from patients with HNSCC before and after cetuximab treatment (pre-/post-PBMC vs. pre-/post-TIL). Multiple analytic approaches were employed to normalize sequencing data.Results:Normalized TCR richness was significantly lower in post-TIL than pre-TIL, suggesting that cetuximab reduced TCR diversity and promoted TCR expansion in TIL samples, regardless of response status. The magnitude of clonal expansion (defined as expansion rate) in top 20 TCR clonotypes was significantly higher in responder PBMC with or without normalization, and in responder TIL upon normalization, than nonresponder ones. Notably, the expanded top 20 or top 50 TCR clonotypes overlapped between PBMC and TIL samples, which occurred significantly more frequently in responders than nonresponders.Conclusions:Patients with cetuximab-treated HNSCC harbor dynamic changes of TCR repertoires correlative to therapeutic responses. The expansion rate of top TCR clonotypes in peripheral blood may serve as a minimally invasive, readily accessible, and feasible marker for predicting cetuximab responses in HNSCCs and beyond, and the expansion rate of top TCR clonotypes in TILs and their overlapping probability between PBMC and TIL may serve as additional predictive markers. Our study also highlights the importance of data normalization for TCR repertoire analysis.

Published

2023

21. Cetuximab responses in HNSCC patients correlate to clonal expansion feature of peripheral and tumor-infiltrating T cells with top T cell receptor (TCR) clonotypes

Author

Huaibin, Ge, Robert L, Ferris, and Jing H, Wang

Abstract

Cetuximab is a standard-of-care treatment for head and neck squamous cell carcinoma (HNSCC). Well-defined correlative markers of therapeutic responses are still lacking. Characterizing dynamic changes of T cell receptor (TCR) repertoire in peripheral blood and tumor tissue may facilitate developing markers for cetuximab response in HNSCCs.We analyzed high-throughput TCRb sequencing data generated with ImmunoSEQ platform using peripheral blood and tumor infiltrating lymphocytes (TIL) from HNSCC patients before and after cetuximab treatment (pre-/post-PBMC vs. pre-/post-TIL). Multiple analytic approaches were employed to normalize sequencing data.Normalized TCR richness was significantly lower in post-TIL than pre-TIL, suggesting that cetuximab reduced TCR diversity and promoted TCR expansion in TIL samples, regardless of response status. The magnitude of clonal expansion (defined as expansion rate) in top-20 TCR clonotypes was significantly higher in responder PBMC with or without normalization, and in responder TIL upon normalization, than non-responder ones. Notably, the expanded top-20 or top-50 TCR clonotypes overlapped between PBMC and TIL samples, which occurred significantly more frequently in responders than non-responders.Cetuximab-treated HNSCC patients harbor dynamic changes of TCR repertoires correlative to therapeutic responses. The expansion rate of top TCR clonotypes in peripheral blood may serve as a minimally invasive, readily accessible, and feasible marker for predicting cetuximab responses in HNSCCs and beyond, and the expansion rate of top TCR clonotypes in TILs and their overlapping probability between PBMC and TIL may serve as additional predictive markers. Our study also highlights the importance of data normalization for TCR repertoire analysis.

Published

2022

22. Th2 cells are associated with tumor recurrence following radiation

Author

Mohamed Abdelhakiem, Riyue Bao, Phillip M. Pifer, David Molkentine, Jessica Molkentine, Andrew Hefner, Beth M. Beadle, John Heymach, Jason J. Luke, Robert L. Ferris, Curtis Pickering, Jing H. Wang, Ravi B. Patel, and Heath D. Skinner

Abstract

Background Curative treatment of the most aggressive solid tumors utilizes radiation therapy, either as a monotherapy or combined with surgery and/or chemotherapy. Previously, we linked the expression of PD-L1 with clinical radioresistance; however, the relationship between outcome following radiation and immune function is unclear. Methods We used two well-annotated cohorts to examine clinical outcomes. The discovery cohort included 94 patients diagnosed with Head and Neck squamous cell carcinoma (HNSCC) who were treated uniformly with surgery and adjuvant radiation. The validation cohort consisted of 97 patients with similar treatment. Immune infiltrates in tumors were derived from RNAseq gene expression in tumor tissues using xCell. The association between each immune cell type and clinical outcomes was tested using Cox proportional hazards models. Immune cell types significantly associated with overall survival (OS), distant metastasis (DM), or locoregional recurrence (LRR) in the discovery cohort were examined in the independent validation cohort. Genes that carry nonsynonymous somatic mutations or have mRNA expression that is associated with the abundance of CD4 + T helper 2 (Th2) cell infiltrate in tumors were also identified in the full TCGA HNSCC cohort as well as non-overlapping cohorts from the International Cancer Genome Consortium (ICGC) and the National Cancer Institute’s Clinical Proteomic Tumor Analysis Consortium (CPTAC). Results In the discovery cohort, we identified intratumoral cell types significantly associated with OS (monocytes, CD4 + memory T cells & Th2 cells), DM (CD4 + memory T cells, sebocytes, and epithelial cells) or LRR (common lymphoid progenitor (CLP) cells, CD4 + memory T cells, Th2 cells, and immature dendritic cells (iDCs). However, only a positive association between high levels of Th2 cells and LRR was identified in the validation cohort. We also identified CREBBP/EP300 and CASP8 among the genes that carry somatic mutations significantly associated with the presence of Th2 cells. Additionally, pathway analysis of genes correlated with Th2 cells revealed potential repression of the antitumor immune response and activation of BRCA1-associated DNA damage repair in multiple cohorts. Conclusions Th2 infiltrate is enriched in HPV-negative HNSCC tumors and is associated with LRR in two independent cohorts of patients following surgery and radiation. Th2 infiltrate is associated with mutations in CASP8 and CREBBP/EP300 and pathways previously shown to impact the response to radiation. Further investigation is warranted to investigate the mechanisms underlying the role of Th2 cells in mediating radioresistance in HPV-negative HNSCC.

Published

2022

23. Th2 cells are associated with recurrence following radiation in human papillomavirus negative head and neck cancer

Author

Mohamed Abdelhakiem, Riyue Bao, Phillip M. Pifer, David Molkentine, Jessica Molkentine, Andrew Hefner, Beth M. Beadle, John Heymach, Jason J. Luke, Robert L. Ferris, Curtis Pickering, Jing H. Wang, Ravi B. Patel, and Heath D. Skinner

Abstract

Background Human papillomavirus (HPV)-negative head and neck squamous cell carcinoma (HNSCC) leads to the death of over 360,000 patients annually worldwide. Curative therapy for this disease commonly consists of surgery followed by radiation therapy. Previously, we linked the expression of PD-L1 with clinical radioresistance in HNSCC; however, the relationship between outcome following radiation and immune function is unclear. Methods We used two well-annotated cohorts to examine clinical outcomes. The discovery cohort included 94 patients diagnosed with HPV-negative HNSCC who were treated uniformly with surgery and adjuvant radiation. The validation cohort consisted of 97 patients with similar treatment. Immune infiltrates in tumors were derived from RNAseq gene expression in tumor tissues using xCell. The association between each immune cell type and clinical outcomes was tested using Cox proportional hazards models. Immune cell types significantly associated with overall survival (OS), distant metastasis (DM), or locoregional recurrence (LRR) in the discovery cohort were examined in the independent validation cohort. Genes that carry nonsynonymous somatic mutations or have mRNA expression that is associated with the abundance of CD4 + T helper 2 (Th2) cell infiltrate in tumors were also identified in the full TCGA HPV-negative HNSCC cohort as well as nonoverlapping cohorts from the International Cancer Genome Consortium (ICGC) and the National Cancer Institute’s Clinical Proteomic Tumor Analysis Consortium (CPTAC). Results In the discovery cohort, we identified intratumoral cell types significantly associated with OS (monocytes, CD4 + memory T cells & Th2 cells), DM (CD4 + memory T cells, sebocytes and epithelial cells) or LRR (common lymphoid progenitor (CLP) cells, CD4 + memory T cells, Th2 cells, and immature dendritic cells (iDCs). However, only a positive association between high levels of Th2 cells and LRR was identified in the validation cohort. We also identified CREBBP/EP300 and CASP8 among the genes that carry somatic mutations significantly associated with the presence of Th2 cells. Additionally, pathway analysis of genes correlated with Th2 cells revealed potential repression of the antitumor immune response and activation of BRCA1-associated DNA damage repair in multiple cohorts. Conclusions Th2 infiltrate is enriched in HPV-negative HNSCC tumors and is associated with LRR in two independent cohorts of patients following surgery and radiation. Th2 infiltrate is associated with mutations in CASP8 and CREBBP/EP300 and pathways previously shown to impact the response to radiation. Further investigation is warranted to investigate the mechanisms underlying the role of Th2 cells in mediating radioresistance in HPV-negative HNSCC.

Published

2022

24. Differential responses to immune checkpoint inhibitor dictated by pre-existing differential immune profiles in squamous cell carcinomas caused by same initial oncogenic drivers

Author

Samantha M. Y. Chen, Vince Popolizio, Rachel A. Woolaver, Huaibin Ge, Alexandra L. Krinsky, Jessy John, Etienne Danis, Yao Ke, Yonatan Kramer, Li Bian, Andrew G. Nicklawsky, Dexiang Gao, Silvia Liu, Zhangguo Chen, Xiao-jing Wang, and Jing H. Wang

Subjects

Mice, Inbred C57BL, Cancer Research, Mice, Oncology, Head and Neck Neoplasms, Carcinoma, Squamous Cell, Tumor Microenvironment, Animals, Humans, Oncogenes, Immune Checkpoint Inhibitors

Abstract

Background While immune checkpoint inhibitors (ICI) were approved for head and neck squamous cell carcinomas (HNSCCs), the response rate remains relatively low. Mechanisms underlying ICI unresponsiveness versus sensitivity are not fully understood. Method To better delineate differential responses to ICI treatment, we employed mouse SCC models, termed KPPA tumors that were caused by deleting p53 and hyperactivating PIK3CA, two most frequently mutated genes in human HNSCCs. We transplanted two KPPA tumor lines (TAb2 versus TCh3) into C57BL/6 recipients and examined the immune tumor microenvironment using flow cytometry. Furthermore, we employed single-cell RNA sequencing to identify the difference in tumor infiltrating lymphocytes (TILs). Results We found that different KPPA tumors exhibited heterogeneous immune profiles pre-existing treatment that dictated their sensitivity or unresponsiveness to anti-PD-L1. Unresponsive TAb2 tumors were highly enriched with functional tumor-associated macrophages (TAMs), especially M2-TAMs. In contrast, sensitive TCh3 tumors contained more CD8 TILs with better effector functions. TAb2 tumor cells drastically expanded F4/80+ TAMs from bone marrow precursors, requiring CSF1 and VEGF. Consistently, a higher combined expression of VEGF-C and CSF1 predicts worse survival in PIK3CAAmp/TP53Mutated HNSCC patients. Unresponsive TAb2 tumors upregulated distinct signaling pathways that correlate with aggressive tumor phenotypes. While anti-PD-L1 did not affect the TME of TAb2 tumors, it significantly increased the number of CD8 TILs in TCh3 tumors. Conclusions We uncovered tumor-intrinsic differences that may underlie the differential responses to ICI by establishing and employing two SCC tumor lines, TAb2 vs. TCh3, both of which harbor TP53 deletion and PIK3CA hyperactivation. Our study indicates the limitation of stratifying cancers according to their genetic alterations and suggests that evaluating HNSCC tumor-intrinsic cues along with immune profiles in the TME may help better predict ICI responses. Our experimental models may provide a platform for pinpointing tumor-intrinsic differences underlying an immunosuppressive TME in HNSCCs and for testing combined immunotherapies targeting either tumor-specific or TAM-specific players to improve ICI efficacy.

Published

2021

25. Host-specific differences in top-expanded TCR clonotypes correlate with divergent outcomes of anti-PD-L1 treatment in responders versus non-responders.

Author

John, Jessy, Chen, Samantha M. Y., Woolaver, Rachel A., Huaibin Ge, Vashisht, Monika, Ziyu Huang, Zhangguo Chen, and Jing H. Wang

Subjects

IMMUNE checkpoint inhibitors, SQUAMOUS cell carcinoma, TUMOR-infiltrating immune cells, T cell receptors, CD8 antigen

Abstract

Immune checkpoint inhibitors (ICIs) have revolutionized cancer treatment; however, the responses to ICI treatment are highly variable in different individuals and the underlying mechanisms remain poorly understood. Here, we employed a mouse squamous cell carcinoma (SCC) model where tumor-bearing recipients diverged into responders (R) versus non-responders (NR) upon anti-PD-L1 treatment. We performed in-depth TCRp sequencing with immunoSEQ platform to delineate the differences in CD8 tumor-infiltrating lymphocytes (TILs). We found that R and NR CD8 TILs both exhibited evidence of clonal expansion, suggesting activation regardless of response status. We detected no differences in clonal expansion or clonal diversity indexes between R vs. NR. However, the top expanded (>1%) TCRp clonotypes appeared to be mutually exclusive between R and NR CD8 TILs, showing a preferential expansion of distinct TCRp clonotypes in response to the same SCC tumor in R vs. NR. Notably, the mutual exclusivity of TCR clonotypes in R vs. NR was only observed when top TCRp clonotypes were counted, because such top-expanded clonotypes are present in the opposite outcome group at a much lower frequency. Many TCRp sequences were detected in only one recipient at a high frequency, implicating highly individualized anti-tumor immune responses. We conclude that differences in the clonal frequency of top TCR clonotypes between R and NR CD8 TILs may be one of the factors underlying differential anti-PD-L1 responses. This notion may offer a novel explanation for variable ICI responses in different individuals, which may substantially impact the development of new strategies for personalized cancer immunotherapy. [ABSTRACT FROM AUTHOR]

Published

2023

26. Divergent outcomes of anti-PD-L1 treatment coupled with host-intrinsic differences in TCR repertoire and distinct T cell activation states in responding versus non-responding tumors.

Author

John, Jessy, Woolaver, Rachel A., Popolizio, Vince, Chen, Samantha M. Y., Huaibin Ge, Krinsky, Alexandra L., Vashisht, Monika, Kramer, Yonatan, Zhangguo Chen, and Jing H. Wang

Subjects

T cells, IMMUNE checkpoint inhibitors, TREATMENT effectiveness, SQUAMOUS cell carcinoma, TUMOR-infiltrating immune cells

Abstract

Differential responses to immune checkpoint inhibitors (ICI) may be attributed to tumor-intrinsic factors or environmental cues; however, these mechanisms cannot fully explain the variable ICI responses in different individuals. Here, we investigate the potential contribution of immunological heterogeneity with a focus on differences in T-cell receptor (TCR) repertoire to ICI responses, which has not been defined previously. To reveal additional factors underlying heterogeneous responses to ICI, we employed a squamous cell carcinoma (SCC) mouse model in which tumor-bearing recipients unambiguously diverged into responders (R) or non-responders (NR) upon anti-PD-L1 treatment. Treatment efficacy absolutely required CD8 T-cells and correlated positively with effector functions of CD8 tumor-infiltrating lymphocytes (TILs). We showed that TCR repertoires exhibited a similar magnitude of clonal expansion in R vs. NR CD8 TILs. However, the top expanded TCR clonotypes appeared to be mutually exclusive between R and NR CD8 TILs, which also occurred in a recipient-specific manner, demonstrating preferential expansion of distinct TCR clonotypes against the same SCC tumor. Unexpectedly, R vs. NR CD8 TILs reached all activation clusters and did not exhibit substantial global differences in transcriptomes. By linking single-cell transcriptomic data with unique TCR clonotypes, CD8 TILs harboring top TCR clonotypes were found to occupy distinct activation clusters and upregulate genes favoring antitumor immunity to different extents in R vs. NR. We conclude that stochastic differences in CD8 TIL TCR repertoire and distinct activation states of top TCR clonotypes may contribute to differential anti-PD-L1 responses. Our study suggests that host-intrinsic immunological heterogeneity may offer a new explanation for differential ICI responses in different individuals, which could impact on strategies for personalized cancer immunotherapy. [ABSTRACT FROM AUTHOR]

Published

2022

27. Squamous cell carcinomas escape immune surveillance via inducing co-expression of PD-1 and LAG-3 inhibitory receptors on tumor infiltrating T lymphocytes

Author

Jing H Wang, Ameet K Mishra, Tanya Kadoishi, Xiaoguang Wang, Emily Driver, Zhangguo Chen, and Xiaojing Wang

Subjects

Immunology, Immunology and Allergy

Abstract

Squamous cell carcinoma (SCC) is the second commonest type of skin cancer. About 90% of head and neck cancers are SCCs. It remains largely unknown how SCCs evade immune recognition. We recently established a mouse model by injecting tumor cells derived from primary SCCs harboring KrasG12D mutation and Smad4 deletion into wild-type (wt) or CD8−/− recipients. We found comparable tumor growth between wt and CD8−/− recipients, indicating a complete escape of CD8+ T cell-mediated anti-tumor responses by these SCCs. Mechanistically, CD8+ T cells were not defective in infiltrating tumors given their relatively increased percentage among tumor infiltrating lymphocytes (TILs). CD8+ TILs exhibited phenotypes of chronic activation and exhaustion, manifested with co-expression of programmed death 1 (PD-1) and lymphocyte activation gene-3 (LAG-3). Among CD4+ TILs, T regulatory cells (Tregs) were preferentially expanded. Contradictory to prior findings in melanoma, Treg expansion was independent of CD8+ T cells in our SCC model. Unexpectedly, CD8+ T cells were required for promoting NK cell infiltration within SCCs. Furthermore, we uncovered AKT-dependent lymphocyte-induced PD-L1 upregulation on SCCs, which was contributed greatly by combinatorial effects of CD8+ T and NK cells. Lastly, dual blockade of PD-1 and LAG-3 inhibited the tumor growth of SCCs. Thus, our findings identify novel immune evasion mechanisms of SCCs and suggest that immunosuppressive mechanisms operate in a cancer-type specific and context-dependent manner.

Published

2017

28. AID-initiated DNA lesions are differentially processed in distinct B cell populations

Author

Zhangguo, Chen, Sheila, Ranganath, Sawanee S, Viboolsittiseri, Maxwell D, Eder, Xiaomi, Chen, Mihret T, Elos, Shunzong, Yuan, Shunzhong, Yuan, Erica, Hansen, and Jing H, Wang

Subjects

Genome instability, Mice, 129 Strain, DNA Repair, DNA repair, Immunology, B-Lymphocyte Subsets, Somatic hypermutation, Biology, Article, Genomic Instability, Substrate Specificity, Proto-Oncogene Proteins c-myc, chemistry.chemical_compound, Transcription (biology), Cytidine Deaminase, medicine, Immunology and Allergy, Animals, Humans, Gene Knock-In Techniques, B cell, Cells, Cultured, Genetics, B-Lymphocytes, Point mutation, Germinal center, Germinal Center, Introns, medicine.anatomical_structure, chemistry, Genetic Loci, Mutation, Cytokines, Somatic Hypermutation, Immunoglobulin, DNA

Abstract

Activation-induced deaminase (AID) initiates U:G mismatches, causing point mutations or DNA double-stranded breaks at Ig loci. How AID-initiated lesions are prevented from inducing genome-wide damage remains elusive. A differential DNA repair mechanism might protect certain non–Ig loci such as c-myc from AID attack. However, determinants regulating such protective mechanisms are largely unknown. To test whether target DNA sequences modulate protective mechanisms via altering the processing manner of AID-initiated lesions, we established a knock-in model by inserting an Sγ2b region, a bona fide AID target, into the first intron of c-myc. Unexpectedly, we found that the inserted S region did not mutate or enhance c-myc genomic instability, due to error-free repair of AID-initiated lesions, in Ag-stimulated germinal center B cells. In contrast, in vitro cytokine-activated B cells display a much higher level of c-myc genomic instability in an AID- and S region–dependent manner. Furthermore, we observe a comparable frequency of AID deamination events between the c-myc intronic sequence and inserted S region in different B cell populations, demonstrating a similar frequency of AID targeting. Thus, our study reveals a clear difference between germinal center and cytokine-activated B cells in their ability to develop genomic instability, attributable to a differential processing of AID-initiated lesions in distinct B cell populations. We propose that locus-specific regulatory mechanisms (e.g., transcription) appear to not only override the effects of S region sequence on AID targeting frequency but also influence the repair manner of AID-initiated lesions.

Published

2014

29. Alternative end-joining catalyzes robust IgH locus deletions and translocations in the combined absence of ligase. 4 and Ku70.

Author

BoboiIa, Cristian, Jankovic, Mila, Yan, Catherine T., Jing H. Wang, Wesemann, Duane R., Tingting Zhang, Fazeli, Alex, Feldman, Lauren, Nussenzweig, Andre, Nussenzweig, Michel, and Alt, Frederick W.

Subjects

GENETIC recombination, CHROMOSOMAL translocation, LIGASES, IMMUNOGLOBULINS, ONCOGENES, CHROMOSOMES

Abstract

Class switch recombination (CSR) in B lymphocytes is initiated by introduction of multiple DNA double-strand breaks (DSB5) into switch(S) regions that flank immunoglobulin heavy chain (IgH) constant region exons. CSR is completed by joining a DSB in the donor Sp to a DSB in a downstream acceptor S region (e.g., Sγ1) by endjoining. In normal cells, many CSR junctions are mediated by classical nonhomologous end-joining (C-NHEJ), which employs the Ku70/80 complex for DSB recognition and XRCC4/DNA ligase 4 for ligation. Alternative end-joining (A-EJ) mediates CSR, at reduced levels, in the absence of C-NHEJ, even in combined absence of Ku70 and ligase 4. demonstrating an A-EJ pathway totally distinct from C-NHEJ. Multiple DSBs are introduced into Sp during CSR, with some being rejoined or joined to each other to generate internal switch deletions (ISDs). In addition, S-region DSB5 can be joined to other chromosomes to generate translocations. the level of which is increased by absence of a single C-NHEJ component (e.g., XRCC4). We asked whether ISD and S-region translocations occur in the complete absence of C-NHEJ (e.g., in Ku70/ligase 4 double-deficient B cells). We found, unexpectedly, that B-cell activation for CSR generates substantial ISD in both Sγ1 and Syl and that ISD in both is greatly increased by the absence of C-NHEJ. IgH chromosomal translocations to the c-myc oncogene also are augmented in the combined absence of Ku70 and ligase 4. We discuss the implications of these findings for A-EJ in normal and abnormal DSB repair. [ABSTRACT FROM AUTHOR]

Published

2010

30. Homozygous DNA ligase IV R278H mutation in mice leads to leaky SCID and represents a model for human LIG4 syndrome.

Author

Rucci, Francesca, Notarangelo, Luigi D., Fazeli, Alex, Patrizi, Laura, Hickernell, Thomas, Paganini, Tiziana, Coakley, Kristen M., Detre, Cynthia, Keszei, Marton, Walter, Jolan E., Feldman, Lauren, Hwei-Ling Cheng, PoIiani, Pietro Luigi, Jing H. Wang, Balter, Barbara B., Recher, Mike, Andersson, Emma-Maria, Zha, Shan, Giliani, Silvia, and Terhorst, Cox

Subjects

GENETIC mutation, SEVERE combined immunodeficiency, LYMPHOCYTES, DNA ligases, MICE physiology, IONIZING radiation, PHYSIOLOGY, THERAPEUTICS

Abstract

DNA ligase IV (LIG4) is an essential component of the nonhomologous end-joining (NHEJ) repair pathway and plays a key role in V(D)J recombination. Hypomorphic LIG4 mutations in humans are associated with increased cellular radiosensitivity, microcephaly, facial dysmorphisms, growth retardation, developmental delay, and a variable degree of immunodeficiency. We have generated a knock-in mouse model with a homozygous Lig4 R278H mutation that corresponds to the first LIG4 mutation reported in humans. The phenotype of homozygous mutant mice Lig4R278H/R278H (Lig4R/R) includes growth retardation, a decreased life span, a severe cellular sensitivity to ionizing radiation, and a very severe, but incomplete block in I and B cell development. Peripheral T lymphocytes show an activated and anergic phenotype, reduced viability, and a restricted repertoire, reminiscent of human leaky SCID. Genomic instability is associated with a high rate of thymic tumor development. Finally, Lig4R/R mice spontaneously produce low-affinity antibodies that include autoreactive specificities, but are unable to mount high-affinity antibody responses. These findings highlight the importance of LIG4 in lymphocyte development and function, and in genomic stability maintenance, and provide a model for the complex phenotype of LIG4 syndrome in humans. [ABSTRACT FROM AUTHOR]

Published

2010

31. One-Dimensional Silicon/PLZT Spatial Light Modulators

Author

Timothy J. Drabik, Jing H. Wang, Sing H. Lee, Mark A. Title, and Sadik C. Esener

Subjects

Materials science, Silicon, business.industry, Transistor, General Engineering, Holography, Physics::Optics, chemistry.chemical_element, Lanthanum compounds, Electro-optics, Reflectivity, Atomic and Molecular Physics, and Optics, Light modulation, law.invention, Optical modulator, Optics, chemistry, law, Modulation, Linear algebra, Electrode, Optoelectronics, Network synthesis filters, Resistor, business

Abstract

One-dimensional, optically addressed silicon/PLZT spatial light modulators (SLMs) have been fabricated and tested. A study of theoretical and measured performance, design configurations, and functional flexibility leads to the conclusion that 1-D silicon/PLZT SLMs will find application in optical linear algebra processors, neural network systems, and multiplex holography.

Published

1986

32. FAK loss reduces BRAFV600E-induced ERK phosphorylation to promote intestinal stemness and cecal tumor formation

Author

Chenxi Gao, Huaibin Ge, Shih-Fan Kuan, Chunhui Cai, Xinghua Lu, Farzad Esni, Robert E Schoen, Jing H Wang, Edward Chu, and Jing Hu

Subjects

FAK, BRAFV600E, EGFR, ERK, carcinogenesis, Medicine, Science, Biology (General), QH301-705.5

Abstract

BRAFV600E mutation is a driver mutation in the serrated pathway to colorectal cancers. BRAFV600E drives tumorigenesis through constitutive downstream extracellular signal-regulated kinase (ERK) activation, but high-intensity ERK activation can also trigger tumor suppression. Whether and how oncogenic ERK signaling can be intrinsically adjusted to a ‘just-right’ level optimal for tumorigenesis remains undetermined. In this study, we found that FAK (Focal adhesion kinase) expression was reduced in BRAFV600E-mutant adenomas/polyps in mice and patients. In Vil1-Cre;BRAFLSL-V600E/+;Ptk2fl/fl mice, Fak deletion maximized BRAFV600E’s oncogenic activity and increased cecal tumor incidence to 100%. Mechanistically, our results showed that Fak loss, without jeopardizing BRAFV600E-induced ERK pathway transcriptional output, reduced EGFR (epidermal growth factor receptor)-dependent ERK phosphorylation. Reduction in ERK phosphorylation increased the level of Lgr4, promoting intestinal stemness and cecal tumor formation. Our findings show that a ‘just-right’ ERK signaling optimal for BRAFV600E-induced cecal tumor formation can be achieved via Fak loss-mediated downregulation of ERK phosphorylation.

Published

2024

33. Interplay between Target Sequences and Repair Pathways Determines Distinct Outcomes of AID-Initiated Lesions.

Author

Zhangguo Chen, Eder, Maxwell D., Elos, Mihret T., Viboolsittiseri, Sawanee S., Xiaomi Chen, and Jing H. Wang

Subjects

*EXONS (Genetics), *DEAMINASES, *DEAMINATION, *DNA repair, *URACIL-DNA glycosylase

Abstract

Activation-induced deaminase (AID) functions by deaminating cytosines and causing U:G mismatches, a rate-limiting step of Ab gene diversification. However, precise mechanisms regulating AID deamination frequency remain incompletely understood. Moreover, it is not known whether different sequence contexts influence the preferential access of mismatch repair or uracil glycosylase (UNG) to AID-initiated U:G mismatches. In this study, we employed two knock-in models to directly compare the mutability of core Sμ and VDJ exon sequences and their ability to regulate AID deamination and subsequent repair process. We find that the switch (S) region is a much more efficient AID deamination target than the V region. Igh locus AID-initiated lesions are processed by error-free and error-prone repair. S region U:G mismatches are preferentially accessed by UNG, leading to more UNG-dependent deletions, enhanced by mismatch repair deficiency. V region mutation hotspots are largely determined by AID deamination. Recurrent and conserved S region motifs potentially function as spacers between AID deamination hotspots. We conclude that the pattern of mutation hotspots and DNA break generation is influenced by sequence-intrinsic properties, which regulate AID deamination and affect the preferential access of downstream repair. Our studies reveal an evolutionarily conserved role for substrate sequences in regulating Ab gene diversity and AID targeting specificity. [ABSTRACT FROM AUTHOR]

Published

2016

34. CDK4 deficiency promotes genomic instability and enhances Myc-driven lymphomagenesis.

Author

Yuanzhi Lu, Yongsheng Wu, Xiaoling Feng, Rulong Shen, Jing H. Wang, Fallahi, Mohammad, Weimin Li, Chunying Yang, Hankey, William, Weiqiang Zhao, Ganju, Ramesh K., Ming O. Li, Cleveland, John L., and Xianghong Zou

Subjects

*LYMPHOMAS, *CYCLIN-dependent kinases, *NEOPLASTIC cell transformation, *GENE expression, *GENETICS, TUMOR genetics

Abstract

The G1 kinase CDK4 is amplified or overexpressed in some human tumors and promotes tumorigenesis by inhibiting known tumor suppressors. Here, we report that CDK4 deficiency markedly accelerated lymphoma development in the Eµ-Myc transgenic mouse model of B lymphoma and that silencing or loss of CDK4 augmented the tumorigenic potential of Myc-driven mouse and human B cell lymphoma in transplant models. Accelerated disease in CDK4-deficient Eµ-Myc transgenic mice was associated with rampant genomic instability that was provoked by dysregulation of a FOXO1/RAG1/RAG2 pathway. Specifically, CDK4 phosphorylated and inactivated FOXO1, which prevented FOXO1-dependent induction of Rag1 and Rag2 transcription. CDK4-deficient Eµ-Myc B cells had high levels of the active form of FOXO1 and elevated RAG1 and RAG2. Furthermore, overexpression of RAG1 and RAG2 accelerated lymphoma development in a transplant model, with RAG1/2-expressing tumors exhibiting hallmarks of genomic instability. Evaluation of human tumor samples revealed that CDK4 expression was markedly suppressed, while FOXO1 expression was elevated, in several subtypes of human non-Hodgkin B cell lymphoma. Collectively, these findings establish a context-specific tumor suppressor function for CDK4 that prevents genomic instability, which contributes to B cell lymphoma. Furthermore, our data suggest that targeting CDK4 may increase the risk for the development and/or progression of lymphoma. [ABSTRACT FROM AUTHOR]

Published

2014