Stable Differences in Intrinsic Mitochondrial Membrane Potential of Tumor Cell Subpopulations Reflect Phenotypic Heterogeneity

Heterogeneity among cells that constitute a solid tumor is important in determining disease progression. Our previous work established that, within a population of metastatic colonic tumor cells, there are minor subpopulations of cells with stable differences in their intrinsic mitochondrial membrane potential (ΔΨm), and that these differences in ΔΨm are linked to tumorigenic phenotype. Here we expanded this work to investigate primary mammary, as well as colonic, tumor cell lines. We show that within a primary mammary tumor cell population, and in both primary and metastatic colonic tumor cell populations, there are subpopulations of cells with significant stable variations in intrinsic ΔΨm. In each of these 3 tumor cell populations, cells with relatively higher intrinsic ΔΨm exhibit phenotypic properties consistent with promotion of tumor cell survival and expansion. However, additional properties associated with invasive potential appear in cells with higher intrinsic ΔΨm only from the metastatic colonic tumor cell line. Thus, it is likely that differences in the intrinsic ΔΨm among cells that constitute primary mammary tumor populations, as well as primary and metastatic colonic tumor populations, are markers of an acquired tumor phenotype which, within the context of the tumor, influence the probability that particular cells will contribute to disease progression.

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Growth Properties of Colonic Tumor Cells Are a Function of the Intrinsic Mitochondrial Membrane Potential

Cancer Research ◽

10.1158/0008-5472.can-05-2717 ◽

2006 ◽

Vol 66 (3) ◽

pp. 1591-1596 ◽

Cited By ~ 45

Author(s):

Barbara G. Heerdt ◽

Michele A. Houston ◽

Leonard H. Augenlicht

Keyword(s):

Membrane Potential ◽

Tumor Cells ◽

Mitochondrial Membrane Potential ◽

Mitochondrial Membrane ◽

Colonic Tumor ◽

Growth Properties

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Characterization of a Novel Primary Mammary Tumor Cell Line Reveals that Cyclin D1 Is Regulated by the Type I Insulin-Like Growth Factor Receptor

Molecular Cancer Research ◽

10.1158/1541-7786.mcr-07-2157 ◽

2008 ◽

Vol 6 (5) ◽

pp. 819-828 ◽

Cited By ~ 14

Author(s):

Robert A. Jones ◽

Craig I. Campbell ◽

James J. Petrik ◽

Roger A. Moorehead

Keyword(s):

Growth Factor ◽

Tumor Cell ◽

Mammary Tumor ◽

Growth Factor Receptor ◽

Tumor Cell Line ◽

Type I ◽

Mammary Tumor Cell ◽

Mammary Tumor Cell Line ◽

Primary Mammary Tumor

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Malignant Cells in the Marrow and Blood of Patients with Hematopoietic Malignancies Have Higher Mitochondrial Membrane Potential as Measured with the Potentiometric Dye JC-1.

Blood ◽

10.1182/blood.v108.11.2367.2367 ◽

2006 ◽

Vol 108 (11) ◽

pp. 2367-2367

Author(s):

Jeffrey R. Gardner ◽

Rong H. Zhang ◽

Ruth Rose ◽

Sue McKenzie ◽

Peter Maslak ◽

...

Keyword(s):

Membrane Potential ◽

Mitochondrial Membrane Potential ◽

Peripheral Blood ◽

Mitochondrial Membrane ◽

Cell Lymphoma ◽

B Cell Lymphoma ◽

Cell Populations ◽

Malignant Cells ◽

Hematopoietic Malignancies ◽

Normal Individuals

Abstract Background: Immunophenotyping is an important method to define hematopoietic malignancies, but used alone, its ability to provide functional information about the malignant cells is limited. JC-1 is a fluorescent dye used to measure mitochondrial membrane potential in cells. We have developed a flow cytometric assay using JC-1 in conjunction with standard cell surface markers to characterize clinical samples from patients with hematologic malignancies. Methods: Ficoll-purified cells derived from the blood or marrow were stained with JC-1, and analyzed at 530 nm and 590nm to assess mitochondrial mass and mitochondrial membrane potential, respectively. Malignant and normal cell populations were assigned and gated by analysis of forward scatter and side scatter. Gating in this manner identified energetically discrete cell populations confirmed by back gating analysis. Results: To date we have measured the mitochondrial membrane potential from the bone marrow or peripheral blood of 3 normal individuals and 22 patients with acute and chronic leukemias and lymphoma involving the marrow. Samples have been analyzed from AML (6), ALL (3), CML- chronic phase (2), CLL (5), mantle cell lymphoma (3), diffuse large B-cell lymphoma (1) and acute biphenotypic leukemia (2). Compared with samples derived from normal individuals, malignant cells have a different energetic signature, and in nearly all instances, a substantially higher mitochondrial membrane potential. The mitochondrial membrane potential of malignant cells was 5.5 times higher (range 2.15–12) than normal cells within the same samples in 19 of 20 specimens (given the overlap in cell populations, CML samples were excluded and 1 CLL sample had a mitochondrial membrane potential that was the same as the normal population). Mitochondrial membrane potential is also higher in malignant cells compared with peripheral blood and marrow cells from normal individuals. While cells derived from patients with acute leukemias appear to be energetically homogeneous, cells from both patients with CML and 4 of 5 patients with CLL had at least 2 energetically discrete subpopulations despite being cytogenetically homogeneous (in the case of the CML samples) or immunophenotypically homogenous (in the case of the CLL samples). Conclusions: JC-1 staining can be performed reliably in concert with immunocytochemistry and provides insight into the metabolism of malignant hematopoietic cells. Preliminary data indicate that malignant cells from patients with leukemia and lymphoma have a high mitochondrial membrane potential which may reflect altered oxidative metabolism. This may serve as a metabolic signature for monitoring minimal residual disease or assessing the effect of therapeutic agents on functional status of malignant populations.

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Assessment of mitochondrial membrane potential in yeast cell populations by flow cytometry

Microbiology ◽

10.1099/00221287-147-12-3335 ◽

2001 ◽

Vol 147 (12) ◽

pp. 3335-3343 ◽

Cited By ~ 85

Author(s):

Paula Ludovico ◽

Manuela Côrte-Real ◽

Filipe Sansonetty

Keyword(s):

Flow Cytometry ◽

Membrane Potential ◽

Yeast Cell ◽

Mitochondrial Membrane Potential ◽

Mitochondrial Membrane ◽

Cell Populations

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Ca2+ Accumulation in Isolated Rat Heart Mitochondria under Maintenance of Mitochondrial Membrane Potential

International Journal of Physiology and Pathophysiology ◽

10.1615/intjphyspathophys.v7.i4.30 ◽

2016 ◽

Vol 7 (4) ◽

pp. 309-319

Author(s):

Alina Yu. Budko ◽

Nataliya A. Strutynska ◽

Iryna Yu. Okhay ◽

Olena M. Semenykhina ◽

Vadim F. Sagach

Keyword(s):

Membrane Potential ◽

Mitochondrial Membrane Potential ◽

Rat Heart ◽

Mitochondrial Membrane ◽

Isolated Rat Heart ◽

Heart Mitochondria ◽

Rat Heart Mitochondria ◽

Isolated Rat

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Platelets apoptosis in rats after global brain ischemia

ZHurnal «Patologicheskaia fiziologiia i eksperimental`naia terapiia» ◽

10.25557/0031-2991.2018.01.27-35 ◽

2018 ◽

pp. 27-35

Author(s):

А.А. Соколовская ◽

Э.Д. Вирюс ◽

В.В. Александрин ◽

А.С. Роткина ◽

К.А. Никифорова ◽

...

Keyword(s):

Flow Cytometry ◽

Ischemic Stroke ◽

Membrane Potential ◽

Mitochondrial Membrane Potential ◽

Brain Ischemia ◽

Mitochondrial Membrane ◽

Male Rats ◽

Global Brain Ischemia ◽

Platelet Apoptosis ◽

Global Brain

Цель исследования. Ишемические повреждения головного мозга, являются одной из наиболее частой причин инвалидности и смертности во всем мире. Недавно была установлена роль апоптоза тромбоцитов в патофизиологии инсульта, однако его механизмы до сих пор остаются невыясненными. Несмотря на различные экспериментальные модели, направленные на мониторинг апоптоза тромбоцитов, результаты, относительно изучения и выявления апоптоза тромбоцитов при ишемии головного мозга у крыс, весьма немногочисленны. Цель исследования - анализ апоптоза тромбоцитов с помощью метода проточной цитофлуориметрии на модели глобальной ишемии мозга у крыс. Методика. В экспериментах использовано 6 крыс-самцов Вистар в возрасте от 5 до 6 мес., разделенных на 2 группы: интактный контроль (К) и глобальная ишемия головного мозга. Модель глобальной ишемии головного мозга у крыс воспроизводилась путём билатеральной окклюзии общих сонных артерий на фоне гипотензии. Уровень системного артериального давления снижали посредством кровопотери до 40-45 мм рт. ст. Суспензию тромбоцитов крыс получали методом гельфильтрации с использованием сефарозы 2B. Для анализа экстернализации фосфатидилсерина (ФС) тромбоциты крыс инкубировали с Аннексином V-PE в связывающем буфере. Для оценки митохондриального мембранного потенциала (ММП) тромбоциты инкубировали с катионным красителем JC-1. После инкубации образцы немедленно анализировали на проточном цитофлуориметре FACSCalibur (Becton Dickinson, США). Результаты. Согласно полученным данным, экстернализация ФС на тромбоцитах крыс, перенесших инсульт, была значительно выше (53,45 ± 4,21%), чем в контрольной группе крыс (5,27 ± 2,40%). Данный эффект подтверждается выраженной деполяризацией митохондриальных мембран (DYm). После экспериментальной ишемии мозга почти 40% тромбоцитов было деполяризовано. Заключение. Использованный в работе подбор методов и маркеров обеспечивает понимание механизмов апоптоза тромбоцитов как в экспериментальных, так и в клинических условиях. Полученные данные позволяют сделать заключение, что апоптоз тромбоцитов является одним из факторов развития глобальной ишемии головного мозга у крыс. Результаты могут быть использованы для понимания механизмов, участвующих в развитии ишемического повреждения, что, в свою очередь, может быть использовано при разработке новых терапевтических стратегий. Aim. Stroke is one of the most common causes of disability and mortality worldwide. Multiple experimental models of stroke have focused on monitoring of platelet apoptosis. However, studies on and detection of platelet apoptosis in rats with ischemic stroke are very scarce. We investigated platelet apoptosis in rats with global brain ischemia using flow cytometry. Methods. Experiments were carried out on healthy, adult Wistar male rats weighing 300-350 g. The rats were divided into the following 2 groups: intact rats and rats with global brain ischemia. Global brain ischemia was induced by two-vessel (2-VO) carotid occlusion in combination with hypotension. Systemic blood pressure was reduced by 40-45 mm Hg by inducing haemorrhage. Platelets were isolated by gel filtration on Sepharose 2B. For evaluation of phosphatidylserine (PS) externalization, platelets were incubated with Annexin V-PE and analyzed on FACSCalibur (BD Biosciences). Mitochondrial membrane potential (DY) was measured during platelets apoptosis using JC-1, a mitochondrial membrane potential indicator. Platelets were analyzed by flow cytometry immediately after the incubation. Results. PS externalization on platelets was significantly greater after global brain ischemia (53.45 ± 4.21%) than in the control group (5.27 ± 2.40%). Pronounced depolarization of mitochondrial membrane potential (DYm) confirmed this finding. In the rat group with experimental brain ischemia, almost 40% (35.24 ± 5.21%) of platelets were depolarized. Conclusion. Our results provide insight into mechanisms involved in platelet apoptosis during ischemic stroke and can be used in further development of new therapeutic strategies.

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