James Ch’ng scite author profile

This review discusses the current state of the viral metabolism field and gaps in knowledge that will be important for future studies to investigate. We discuss metabolic rewiring caused by viruses, the influence of oncogenic viruses on host cell metabolism, and the use of viruses as guides to identify critical metabolic nodes for cancer anabolism. We also discuss the need for more mechanistic studies identifying viral proteins responsible for metabolic hijacking and for in vivo studies of viral-induced metabolic rewiring. Improved technologies for detailed metabolic measurements and genetic manipulation will lead to important discoveries over the next decade.

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Targeting nucleotide metabolism as the nexus of viral infections, cancer, and the immune response

Ariav

Ch’ng

Christofk

et al. 2021

Sci. Adv.

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Virus-infected cells and cancers share metabolic commonalities that stem from their insatiable need to replicate while evading the host immune system. These similarities include hijacking signaling mechanisms that induce metabolic rewiring in the host to up-regulate nucleotide metabolism and, in parallel, suppress the immune response. In both cancer and viral infections, the host immune cells and, specifically, lymphocytes augment nucleotide synthesis to support their own proliferation and effector functions. Consequently, established treatment modalities targeting nucleotide metabolism against cancers and virally infected cells may result in restricted immune response. Encouragingly, following the introduction of immunotherapy against cancers, multiple studies improved our understanding for improving antigen presentation to the immune system. We propose here that understanding the immune consequences of targeting nucleotide metabolism against cancers may be harnessed to optimize therapy against viral infections.

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Monocarboxylate transporter antagonism reveals metabolic vulnerabilities of viral-driven lymphomas

Bonglack

Messinger

Cable

et al. 2021

Proc. Natl. Acad. Sci. U.S.A.

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Epstein–Barr virus (EBV) is a ubiquitous herpesvirus that typically causes asymptomatic infection but can promote B lymphoid tumors in the immune suppressed. In vitro, EBV infection of primary B cells stimulates glycolysis during immortalization into lymphoblastoid cell lines (LCLs). Lactate export during glycolysis is crucial for continued proliferation of many cancer cells—part of a phenomenon known as the “Warburg effect”— and is mediated by monocarboxylate transporters (MCTs). However, the role of MCTs has yet to be studied in EBV-associated malignancies, which display Warburg-like metabolism in vitro. Here, we show that EBV infection of B lymphocytes directly promotes temporal induction of MCT1 and MCT4 through the viral proteins EBNA2 and LMP1, respectively. Functionally, MCT1 was required for early B cell proliferation, and MCT4 up-regulation promoted acquired resistance to MCT1 antagonism in LCLs. However, dual MCT1/4 inhibition led to LCL growth arrest and lactate buildup. Metabolic profiling in LCLs revealed significantly reduced oxygen consumption rates (OCRs) and NAD+/NADH ratios, contrary to previous observations of increased OCR and unaltered NAD+/NADH ratios in MCT1/4-inhibited cancer cells. Furthermore, U-13C6–glucose labeling of MCT1/4-inhibited LCLs revealed depleted glutathione pools that correlated with elevated reactive oxygen species. Finally, we found that dual MCT1/4 inhibition also sensitized LCLs to killing by the electron transport chain complex I inhibitors phenformin and metformin. These findings were extended to viral lymphomas associated with EBV and the related gammaherpesvirus KSHV, pointing at a therapeutic approach for targeting both viral lymphomas.

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Treatment of post‐transplant lymphoproliferative disorder (PTLD) in a heart transplant recipient with chimeric antigen receptor T‐cell therapy

Dang

Ch’ng

Russell

et al. 2020

Pediatric Transplantation

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PTLD is a heterogenous condition that can complicate solid organ or hematopoietic stem cell transplantation and is often associated with EBV. 1 The pathogenesis of PTLD in solid organ transplant recipients is thought to originate from an impairment in T-cell functioning due to medical immunosuppression, allowing an EBV-driven B-cell proliferative process to occur. 2,3 The risk of PTLD among pediatric heart transplant recipients is around 6% and confers significant morbidity and mortality. 4 The 2016 revision of the World Health Organization criteria classifies PTLD into six categories: plasmacytic-hyperplasia PTLD, infectious mononucleosis PTLD, florid follicular hyperplasia PTLD, polymorphic PTLD, monomorphic PTLD, and classical Hodgkin lymphoma PTLD, 5 and management of PTLD is dependent on the pathologic classification and transplant type.

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Recombinant Human Granulocyte-Macrophage Colony-Stimulating Factor (rhu GM-CSF) as Adjuvant Therapy for Invasive Fungal Diseases

Chen

Batra

Michalik

et al. 2022

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Background Sargramostim (yeast-derived, glycosylated recombinant human granulocyte-macrophage colony-stimulating factor [rhu GM-CSF]) augments innate and adaptive immune responses and accelerates hematopoietic recovery of chemotherapy-induced neutropenia. However, considerably less is known about its efficacy as adjunctive immunotherapy against invasive fungal diseases (IFDs). Methods Clinical courses of 15 patients with pediatric malignancies and IFDs treated adjunctively with sargramostim at a single institution were analyzed in a retrospective cohort review. Further, a systematic review of published reports of rhu GM-CSF for IFDs also was conducted. Results Among 65 cases, 15 were newly described pediatric patients and 50 were previously published cases of IFDs treated with rhu GM-CSF. Among the newly reported pediatric patients, IFDs were caused by Candida spp., Trichosporon sp., and moulds (Aspergillus spp., Rhizopus sp., Lichtheimia sp., and Scedosporium sp). Twelve (80%) were neutropenic at baseline and 12 (80%) refractory to antifungal therapy. Among 12 evaluable patients, overall response rate was 92% (8 (67%) complete responses, 3 (25%) partial responses, and 1 (8%) stable). Treatment is ongoing in the remaining three patients. Among 50 published cases (15 Candida spp., 13 Mucorales, 11 Aspergillus spp., 11 other organisms), 20 (40%) had baseline neutropenia and 36 (72%) were refractory to standard therapy before rhu GM-CSF administration. Consistent with responses in the newly reported patients, overall response rate in the literature review was 82% (40 (80%) complete responses, 1 (2%) partial response and 9 (18%) no response). Conclusions Sargramostim may be a potential adjunctive immunomodulator for selected patients with hematological malignancies and refractory IFDs.

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James Ch’ng

Viral hijacking of cellular metabolism

Targeting nucleotide metabolism as the nexus of viral infections, cancer, and the immune response

Monocarboxylate transporter antagonism reveals metabolic vulnerabilities of viral-driven lymphomas

Treatment of post‐transplant lymphoproliferative disorder (PTLD) in a heart transplant recipient with chimeric antigen receptor T‐cell therapy

Recombinant Human Granulocyte-Macrophage Colony-Stimulating Factor (rhu GM-CSF) as Adjuvant Therapy for Invasive Fungal Diseases

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