Tumor-associated myeloid cells provide critical support for T-ALL

Lyu, Aram; Triplett, Todd; Nam, Seo Hee; Hu, Zicheng; Arasappan, Dhivya; Godfrey, Wesley H.; Ames, Rachel Y.; Sarang, Adviti; Selden, Hilary J.; Lee, Chang Han; Georgiou, George; Horton, Terzah M.; Ehrlich, Lauren I.R.

doi:10.1182/blood.2020007145

Cited by 16 publications

(27 citation statements)

References 57 publications

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“…Surprisingly, dendritic cells were dispensable for leukemia progression in vivo. 1 This discrepancy with the previous report could be due to several reasons. First of all, the differences between in vitro and in vivo experimental systems could have an impact.…”

contrasting

confidence: 55%

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Myeloid cells hold the master key for T-ALL spread

Passaro

2020

Blood

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contrasting

confidence: 55%

“…

In this issue of Blood, Lyu et al tackle the fascinating question of identifying novel mediators of leukemia progression hidden in the intricate host environment. 1 Particularly, they provide robust evidence for an essential role of myeloid cells in supporting T-cell acute lymphoblastic leukemia (T-ALL).

…”

mentioning

confidence: 99%

Myeloid cells hold the master key for T-ALL spread

Passaro

2020

Blood

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“…M2 macrophages were also shown to provide pro-survival signals to T-ALL cells. Human macrophages cultured in vitro secreted insulin-like growth factor IGF1, which contributed to increased survival of T-ALL cells expressing IGF1-R (insulin-like growth factor 1 receptor) [104]. Accordingly, depletion of myeloid cells led to reduced leukemic burden and improved survival of mice in the LN3 transgenic model of T-ALL [104].…”

Section: Macrophages and Dendritic Cellsmentioning

confidence: 99%

Mechanisms of Immune Evasion in Acute Lymphoblastic Leukemia

Pastorczak

Domka

Fidyt

et al. 2021

Cancers

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Acute lymphoblastic leukemia (ALL) results from a clonal expansion of abnormal lymphoid progenitors of B cell (BCP-ALL) or T cell (T-ALL) origin that invade bone marrow, peripheral blood, and extramedullary sites. Leukemic cells, apart from their oncogene-driven ability to proliferate and avoid differentiation, also change the phenotype and function of innate and adaptive immune cells, leading to escape from the immune surveillance. In this review, we provide an overview of the genetic heterogeneity and treatment of BCP- and T-ALL. We outline the interactions of leukemic cells in the bone marrow microenvironment, mainly with mesenchymal stem cells and immune cells. We describe the mechanisms by which ALL cells escape from immune recognition and elimination by the immune system. We focus on the alterations in ALL cells, such as overexpression of ligands for various inhibitory receptors, including anti-phagocytic receptors on macrophages, NK cell inhibitory receptors, as well as T cell immune checkpoints. In addition, we describe how developing leukemia shapes the bone marrow microenvironment and alters the function of immune cells. Finally, we emphasize that an immunosuppressive microenvironment can reduce the efficacy of chemo- and immunotherapy and provide examples of preclinical studies showing strategies for improving ALL treatment by targeting these immunosuppressive interactions.

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“…Additionally, recent unbiased genome-wide profiling analyses have expanded our understanding of the genetic landscape of T-ALL, identifying novel driver genes and associated molecular mechanisms that promote leukemia initiation and progression (14). However, despite multiple pro-leukemic genomic lesions, T-ALL cells cannot survive in vitro in the absence of cytokines or supportive cell types (15,16), suggesting that cells or signals in the leukemia-microenvironment are required to support leukemia growth and could thus serve as therapeutic targets.…”

Section: Introductionmentioning

confidence: 99%

“…Several cell types in the TME have been shown to support T-ALL survival and progression, including vascular endothelial cells through a C-X-C motif chemokine receptor 4 (CXCR4)-CXCL12 axis in the BM (19,20), and thymic epithelial cells (TECs) through release of interleukin 7 (IL-7) and expression of NOTCH1 ligands (11,21,22). We have previously shown that tumor-associated myeloid cells provide critical support for T-ALL, in part by secreting IGF1 to activate IGF1R signaling in leukemic cells (15,16). However, IGF1 is not sufficient to support T-ALL survival in culture, and myeloid cells sensitize T-ALL cells to IGF1 (16), suggesting a role for additional molecular mechanisms underlying myeloid-mediated T-ALL support.…”

Section: Introductionmentioning

confidence: 99%

Integrin signaling is critical for myeloid-mediated support of T-cell acute lymphoblastic leukemia

Lyu

Nam

Humphrey

et al. 2022

Preprint

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We previously found that T-cell acute lymphoblastic leukemia (T-ALL) requires support from tumor-associated myeloid cells, which activate IGF1R signaling in the leukemic blasts. However, IGF1 is not sufficient to sustain T-ALL survival in vitro, implicating additional myeloid-mediated signals in T-ALL progression. Here, we find that T-ALL cells require close contact with myeloid cells to survive. Transcriptional profiling and in vitro assays demonstrate that integrin-mediated cell adhesion and activation of the downstream FAK/PYK2 kinases are required for myeloid-mediated support of T-ALL cells and promote IGF1R activation. Consistent with these findings, inhibition of integrins or FAK/PYK2 signaling diminishes leukemia burden in multiple organs and confers a survival advantage in a mouse model of T-ALL. Inhibiting integrin mediated cell adhesion or FAK/PYK2 also diminishes survival of primary patient T-ALL cells co-cultured with myeloid cells. Furthermore, elevated integrin pathway gene signatures correlate significantly with myeloid enrichment and an inferior prognosis in pediatric T-ALL patients.

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Tumor-associated myeloid cells provide critical support for T-ALL

Cited by 16 publications

References 57 publications

Myeloid cells hold the master key for T-ALL spread

Myeloid cells hold the master key for T-ALL spread

Mechanisms of Immune Evasion in Acute Lymphoblastic Leukemia

Integrin signaling is critical for myeloid-mediated support of T-cell acute lymphoblastic leukemia

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