To portray clonal evolution in blood cancer, count your stem cells

Lyne, Anne-Marie; Laplane, Lucie; Perié, Leïla

doi:10.1182/blood.2020008407

Cited by 15 publications

(13 citation statements)

References 104 publications

(133 reference statements)

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“…Drift may play a significant role in some cancers' dynamics, limiting variation available for selection. Cancer stem cells may effectively function as genetic "bottlenecks, " governing the variation available for selection in a tumor (Laplane, 2018;Lyne et al, 2020). Such bottlenecks could be limiting the possible scope of evolutionary change in some cancers.…”

Section: Discussionmentioning

confidence: 99%

Testing Multi-Task Cancer Evolution: How Do We Test Ecological Hypotheses in Cancer?

Plutynski

2021

Front. Ecol. Evol.

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Recently several authors described a family of models, according to which different cancer types and subtypes fall within a space of selective trade-offs between archetypes that maximize the performance of different tasks: cell division, biomass and energy production, lipogenesis, immune interaction, and invasion and tissue remodeling. On this picture, inter- and intratumor heterogeneity can be explained in part as a product of these selective trade-offs in different cancers, at different stages of cancer progression. The aim of this Perspective is to critically assess this approach. I use this case study to consider more generally both the advantages of using ecological models in the context of cancer, and the challenges facing testing of such models.

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Section: Discussionmentioning

confidence: 99%

Testing Multi-Task Cancer Evolution: How Do We Test Ecological Hypotheses in Cancer?

Plutynski

2021

Front. Ecol. Evol.

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“…Neutral evolution of these passenger mutations can also shape clonal evolution, notably by a phenomenon called genetic drift, in which the allele frequencies of a mutation change over time. In addition, when both driver and passenger mutations occur in the same cell, the passenger mutations increase their allele frequency with the driver mutations, which is a phenomenon called hitchhiking that also participate in clonal evolution (47,48).…”

Section: Pre-leukemic Stem Cell and Leukemic Stem Cellmentioning

confidence: 99%

Leukemic Stem Cell: A Mini-Review on Clinical Perspectives

Barreto

Pessoa²,

Machado³

et al. 2022

Front. Oncol.

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Hematopoietic stem cells (HSCs) are known for their ability to proliferate and self-renew, thus being responsible for sustaining the hematopoietic system and residing in the bone marrow (BM). Leukemic stem cells (LSCs) are recognized by their stemness features such as drug resistance, self-renewal, and undifferentiated state. LSCs are also present in BM, being found in only 0.1%, approximately. This makes their identification and even their differentiation difficult since, despite the mutations, they are cells that still have many similarities with HSCs. Although the common characteristics, LSCs are heterogeneous cells and have different phenotypic characteristics, genetic mutations, and metabolic alterations. This whole set of alterations enables the cell to initiate the process of carcinogenesis, in addition to conferring drug resistance and providing relapses. The study of LSCs has been evolving and its application can help patients, where through its count as a biomarker, it can indicate a prognostic factor and reveal treatment results. The selection of a target to LSC therapy is fundamental. Ideally, the target chosen should be highly expressed by LSCs, highly selective, absence of expression on other cells, in particular HSC, and preferentially expressed by high numbers of patients. In view of the large number of similarities between LSCs and HSCs, it is not surprising that current treatment approaches are limited. In this mini review we seek to describe the immunophenotypic characteristics and mechanisms of resistance presented by LSCs, also approaching possible alternatives for the treatment of patients.

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“…However, these mutations can also take part in clonal evolution, in particular through a phenomenon called genetic drift, in which allele frequencies of the mutation change over time due to mere chance [122]. In addition, when passenger mutations occur in the same cells as the driver's mutations, the passenger mutations increase their allele frequency along with the driver's mutations [123].…”

Section: Distance To the Endosteum Proliferative Potential Predominance Of Myeloid Differentiation Bm Homing Mobilization By Cytokinesmentioning

confidence: 99%

Hematopoiesis during Ontogenesis, Adult Life, and Aging

Belyavsky

Petinati

2021

IJMS

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In the bone marrow of vertebrates, two types of stem cells coexist—hematopoietic stem cells (HSCs) and mesenchymal stem cells (MSCs). Hematopoiesis only occurs when these two stem cell types and their descendants interact. The descendants of HSCs supply the body with all the mature blood cells, while MSCs give rise to stromal cells that form a niche for HSCs and regulate the process of hematopoiesis. The studies of hematopoiesis were initially based on morphological observations, later extended by the use of physiological methods, and were subsequently augmented by massive application of sophisticated molecular techniques. The combination of these methods produced a wealth of new data on the organization and functional features of hematopoiesis in the ontogenesis of mammals and humans. This review summarizes the current views on hematopoiesis in mice and humans, discusses the development of blood elements and hematopoiesis in the embryo, and describes how the hematopoietic system works in the adult organism and how it changes during aging.

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To portray clonal evolution in blood cancer, count your stem cells

Cited by 15 publications

References 104 publications

Testing Multi-Task Cancer Evolution: How Do We Test Ecological Hypotheses in Cancer?

Testing Multi-Task Cancer Evolution: How Do We Test Ecological Hypotheses in Cancer?

Leukemic Stem Cell: A Mini-Review on Clinical Perspectives

Hematopoiesis during Ontogenesis, Adult Life, and Aging

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