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Hodgkin lymphoma : a complex metabolic ecosystem with glycolytic reprogramming of the tumor microenvironment

Mikkilineni, L; Whitaker-Menezes, D; Domingo-Vidal, M; Sprandio, J; Avena, P; Cotzia, P; Dulau-Florea, A; Gong, J; Uppal, G; Zhan, T; Leiby, B; Lin, Z; Pro, B; Sotgia, F; Lisanti, MP; Martinez-Outschoorn, U

Authors

L Mikkilineni

D Whitaker-Menezes

M Domingo-Vidal

J Sprandio

P Avena

P Cotzia

A Dulau-Florea

J Gong

G Uppal

T Zhan

B Leiby

Z Lin

B Pro

U Martinez-Outschoorn



Abstract

Background

Twenty percent of patients with classical Hodgkin Lymphoma (cHL) have aggressive disease defined as relapsed or refractory disease to initial therapy. At present we cannot identify these patients pre-treatment. The microenvironment is very important in cHL because non-cancer cells constitute the majority of the cells in these tumors. Non-cancer intra-tumoral cells, such as tumor-associated macrophages (TAMs) have been shown to promote tumor growth in cHL via crosstalk with the cancer cells. Metabolic heterogeneity is defined as high mitochondrial metabolism in some tumor cells and glycolysis in others. We hypothesized that there are metabolic differences between cancer cells and non-cancer tumor cells, such as TAMs and tumor-infiltrating lymphocytes in cHL and that greater metabolic differences between cancer cells and TAMs are associated with poor outcomes.
Methods

A case-control study was conducted with 22 tissue samples of cHL at diagnosis from a single institution. The case samples were from 11 patients with aggressive cHL who had relapsed after standard treatment with adriamycin, bleomycin, vinblastine, and dacarbazine (ABVD) or were refractory to this treatment. The control samples were from 11 patients with cHL who achieved a remission and never relapsed after ABVD. Reactive non-cancerous lymph nodes from four subjects served as additional controls. Samples were stained by immunohistochemistry for three metabolic markers: translocase of the outer mitochondrial membrane 20 (TOMM20), monocarboxylate transporter 1 (MCT1), and monocarboxylate transporter 4 (MCT4). TOMM20 is a marker of mitochondrial oxidative phosphorylation (OXPHOS) metabolism. Monocarboxylate transporter 1 (MCT1) is the main importer of lactate into cells and is a marker of OXPHOS. Monocarboxylate transporter 4 (MCT4) is the main lactate exporter out of cells and is a marker of glycolysis. The immunoreactivity for TOMM20, MCT1, and MCT4 was scored based on staining intensity and percentage of positive cells, as follows: 0 for no detectable staining in > 50% of cells; 1+ for faint to moderate staining in > 50% of cells, and 2+ for high or strong staining in > 50% of cells.
Results

TOMM20, MCT1, and MCT4 expression was significantly different in Hodgkin and Reed Sternberg (HRS) cells, which are the cancerous cells in cHL compared with TAMs and tumor-associated lymphocytes. HRS have high expression of TOMM20 and MCT1, while TAMs have absent expression of TOMM20 and MCT1 in all but two cases. Tumor-infiltrating lymphocytes have low TOMM20 expression and absent MCT1 expression. Conversely, high MCT4 expression was found in TAMs, but absent in HRS cells in all but one case. Tumor-infiltrating lymphocytes had absent MCT4 expression. Reactive lymph nodes in contrast to cHL tumors had low TOMM20, MCT1, and MCT4 expression in lymphocytes and macrophages. High TOMM20 and MCT1 expression in cancer cells with high MCT4 expression in TAMs is a signature of high metabolic heterogeneity between cancer cells and the tumor microenvironment. A high metabolic heterogeneity signature was associated with relapsed or refractory cHL with a hazard ratio of 5.87 (1.16–29.71; two-sided P < .05) compared with the low metabolic heterogeneity signature.
Conclusion

Aggressive cHL exhibits features of metabolic heterogeneity with high mitochondrial metabolism in cancer cells and high glycolysis in TAMs, which is not seen in reactive lymph nodes. Future studies will need to confirm the value of these markers as prognostic and predictive biomarkers in clinical practice. Treatment intensity may be tailored in the future to the metabolic profile of the tumor microenvironment and drugs that target metabolic heterogeneity may be valuable in this disease.

Citation

Mikkilineni, L., Whitaker-Menezes, D., Domingo-Vidal, M., Sprandio, J., Avena, P., Cotzia, P., …Martinez-Outschoorn, U. (2017). Hodgkin lymphoma : a complex metabolic ecosystem with glycolytic reprogramming of the tumor microenvironment. Seminars in Oncology, 44(3), 218-225. https://doi.org/10.1053/j.seminoncol.2017.10.003

Journal Article Type Article
Online Publication Date Oct 10, 2017
Publication Date Jun 1, 2017
Deposit Date Oct 19, 2020
Journal Seminars in Oncology
Print ISSN 0093-7754
Publisher Elsevier
Volume 44
Issue 3
Pages 218-225
DOI https://doi.org/10.1053/j.seminoncol.2017.10.003
Publisher URL https://doi.org/10.1053/j.seminoncol.2017.10.003
Related Public URLs https://www-sciencedirect-com.salford.idm.oclc.org/journal/seminars-in-oncology