A Novel View of the Adult Stem Cell Compartment From the Perspective of a Quiescent Population of Very Small Embryonic-Like Stem Cells

doi:10.1161/CIRCRESAHA.116.309362

Review

. 2017 Jan 6;120(1):166-178.

doi: 10.1161/CIRCRESAHA.116.309362.

A Novel View of the Adult Stem Cell Compartment From the Perspective of a Quiescent Population of Very Small Embryonic-Like Stem Cells

Mariusz Z Ratajczak¹, Janina Ratajczak², Malwina Suszynska², Donald M Miller², Magda Kucia², Dong-Myung Shin²

Affiliations

¹ From the Department of Medicine, Stem Cell Biology Program at the James Graham Brown Cancer Center, University of Louisville, KY (M.Z.R., J.R., M.S., D.M.M., M.K.); Department of Regenerative Medicine, Warsaw Medical University, Poland (M.Z.R., M.K.); and Department of Biomedical Sciences, University of Ulsan College of Medicine, Seoul, South Korea (D.-M.S.). mzrata01@louisville.edu.
² From the Department of Medicine, Stem Cell Biology Program at the James Graham Brown Cancer Center, University of Louisville, KY (M.Z.R., J.R., M.S., D.M.M., M.K.); Department of Regenerative Medicine, Warsaw Medical University, Poland (M.Z.R., M.K.); and Department of Biomedical Sciences, University of Ulsan College of Medicine, Seoul, South Korea (D.-M.S.).

PMID: 28057792
PMCID: PMC5221475
DOI: 10.1161/CIRCRESAHA.116.309362

Review

A Novel View of the Adult Stem Cell Compartment From the Perspective of a Quiescent Population of Very Small Embryonic-Like Stem Cells

Mariusz Z Ratajczak et al. Circ Res. 2017.

. 2017 Jan 6;120(1):166-178.

doi: 10.1161/CIRCRESAHA.116.309362.

Authors

Mariusz Z Ratajczak¹, Janina Ratajczak², Malwina Suszynska², Donald M Miller², Magda Kucia², Dong-Myung Shin²

Affiliations

¹ From the Department of Medicine, Stem Cell Biology Program at the James Graham Brown Cancer Center, University of Louisville, KY (M.Z.R., J.R., M.S., D.M.M., M.K.); Department of Regenerative Medicine, Warsaw Medical University, Poland (M.Z.R., M.K.); and Department of Biomedical Sciences, University of Ulsan College of Medicine, Seoul, South Korea (D.-M.S.). mzrata01@louisville.edu.
² From the Department of Medicine, Stem Cell Biology Program at the James Graham Brown Cancer Center, University of Louisville, KY (M.Z.R., J.R., M.S., D.M.M., M.K.); Department of Regenerative Medicine, Warsaw Medical University, Poland (M.Z.R., M.K.); and Department of Biomedical Sciences, University of Ulsan College of Medicine, Seoul, South Korea (D.-M.S.).

PMID: 28057792
PMCID: PMC5221475
DOI: 10.1161/CIRCRESAHA.116.309362

Abstract

Evidence has accumulated that adult hematopoietic tissues and other organs contain a population of dormant stem cells (SCs) that are more primitive than other, already restricted, monopotent tissue-committed SCs (TCSCs). These observations raise several questions, such as the developmental origin of these cells, their true pluripotent or multipotent nature, which surface markers they express, how they can be efficiently isolated from adult tissues, and what role they play in the adult organism. The phenotype of these cells and expression of some genes characteristic of embryonic SCs, epiblast SCs, and primordial germ cells suggests their early-embryonic deposition in developing tissues as precursors of adult SCs. In this review, we will critically discuss all these questions and the concept that small dormant SCs related to migratory primordial germ cells, described as very small embryonic-like SCs, are deposited during embryogenesis in bone marrow and other organs as a backup population for adult tissue-committed SCs and are involved in several processes related to tissue or organ rejuvenation, aging, and cancerogenesis. The most recent results on successful ex vivo expansion of human very small embryonic-like SC in chemically defined media free from feeder-layer cells open up new and exciting possibilities for their application in regenerative medicine.

Keywords: adult stem cells; germ layers; hematopoietic stem cells; parental imprinting; ras-GRF1; stem cells; very small embryonic like stem cells.

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Conflict of interest statement

– None to report

Figures

**Figure 1. Identification and isolation of VSELs and HSCs from human umbilical cord blood by employing FACS sorter**
To develop a more efficient and less time consuming method for purifying VSELs from UCB, we developed a three-step isolation strategy based on (1) removing erythrocytes by hypotonic lysis, (2) immunomagnetic separation of CD133⁺ cells, and (3) FACS-based isolation of small CD133⁺Lin⁻CD45⁻ cells. Region R1 shows events exhibiting DNA content. Nucleated cells included in R2 are visualized based on their FSC and SSC characteristics. R3 and R4 are employed to exclude doublets. Region R5 presents Lin⁻ cells, which are analyzed on next dot-plot based on CD133 vs. CD45 expression and clasified as VSELs enclosed in R7 (CD133⁺Lin⁻CD45⁻), and HSCs enclosed in R6 (CD133⁺Lin⁻CD45⁺). Small and agranular VSELs from region R7 are presented on cytogram based on FSC vs. SSC characteristics (green ellipse), compared to bigger HSCs from region R6 (blue ellipse).

**Figure 2. Example of expansion of human umbilical cord blood derived VSELs**
**Panel A –** Freshly sorted VSELs (5×10²) were plated in 0.2 ml of DMEM + 10% FBS, supplemented with VPA and a cocktail of two pituitary sex hormones, FSH and LH together with BMP-4, IGF-2 and KL. Right inset shows enlarged image of freshly sorted VSEL. Cells were cultured for 2 months and half of culture medium has been changed every 7 days. **Panel B** – Upper panel - VSELs in these culture conditions began to proliferate, and after 2 months of expansion we can distinguish many small cells as well as some larger cells. Maximal expansion is achieved after 2–3 months of culture. Lower panel - cells aspirated from the cultures. Left and middle panel light microscope image. Right panel – Hoe3342 intravital staining of cells aspirated from the expansion.

See this image and copyright information in PMC

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References

1. Kucia M, Reca R, Campbell FR, Zuba-Surma E, Majka M, Ratajczak J, Ratajczak MZ. A population of very small embryonic-like (vsel) cxcr4(+)ssea-1(+)oct-4+ stem cells identified in adult bone marrow. Leukemia. 2006;20:857–869. - PubMed
1. Ratajczak MZ, Machalinski B, Wojakowski W, Ratajczak J, Kucia M. A hypothesis for an embryonic origin of pluripotent oct-4(+) stem cells in adult bone marrow and other tissues. Leukemia. 2007;21:860–867. - PubMed
1. Beltrami AP, Cesselli D, Bergamin N, Marcon P, Rigo S, Puppato E, D’Aurizio F, Verardo R, Piazza S, Pignatelli A, Poz A, Baccarani U, Damiani D, Fanin R, Mariuzzi L, Finato N, Masolini P, Burelli S, Belluzzi O, Schneider C, Beltrami CA. Multipotent cells can be generated in vitro from several adult human organs (heart, liver, and bone marrow) Blood. 2007;110:3438–3446. - PubMed
1. D’Ippolito G, Diabira S, Howard GA, Menei P, Roos BA, Schiller PC. Marrow-isolated adult multilineage inducible (miami) cells, a unique population of postnatal young and old human cells with extensive expansion and differentiation potential. Journal of Cell Science. 2004;117:2971–2981. - PubMed
1. Kogler G, Sensken S, Airey JA, Trapp T, Muschen M, Feldhahn N, Liedtke S, Sorg RV, Fischer J, Rosenbaum C, Greschat S, Knipper A, Bender J, Degistirici O, Gao J, Caplan AI, Colletti EJ, Almeida-Porada G, Muller HW, Zanjani E, Wernet P. A new human somatic stem cell from placental cord blood with intrinsic pluripotent differentiation potential. The Journal of Experimental Medicine. 2004;200:123–135. - PMC - PubMed

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[1] Kucia M, Reca R, Campbell FR, Zuba-Surma E, Majka M, Ratajczak J, Ratajczak MZ. A population of very small embryonic-like (vsel) cxcr4(+)ssea-1(+)oct-4+ stem cells identified in adult bone marrow. Leukemia. 2006;20:857–869. - PubMed

[2] Kucia M, Reca R, Campbell FR, Zuba-Surma E, Majka M, Ratajczak J, Ratajczak MZ. A population of very small embryonic-like (vsel) cxcr4(+)ssea-1(+)oct-4+ stem cells identified in adult bone marrow. Leukemia. 2006;20:857–869. - PubMed

[3] Ratajczak MZ, Machalinski B, Wojakowski W, Ratajczak J, Kucia M. A hypothesis for an embryonic origin of pluripotent oct-4(+) stem cells in adult bone marrow and other tissues. Leukemia. 2007;21:860–867. - PubMed

[4] Ratajczak MZ, Machalinski B, Wojakowski W, Ratajczak J, Kucia M. A hypothesis for an embryonic origin of pluripotent oct-4(+) stem cells in adult bone marrow and other tissues. Leukemia. 2007;21:860–867. - PubMed

[5] Beltrami AP, Cesselli D, Bergamin N, Marcon P, Rigo S, Puppato E, D’Aurizio F, Verardo R, Piazza S, Pignatelli A, Poz A, Baccarani U, Damiani D, Fanin R, Mariuzzi L, Finato N, Masolini P, Burelli S, Belluzzi O, Schneider C, Beltrami CA. Multipotent cells can be generated in vitro from several adult human organs (heart, liver, and bone marrow) Blood. 2007;110:3438–3446. - PubMed

[6] Beltrami AP, Cesselli D, Bergamin N, Marcon P, Rigo S, Puppato E, D’Aurizio F, Verardo R, Piazza S, Pignatelli A, Poz A, Baccarani U, Damiani D, Fanin R, Mariuzzi L, Finato N, Masolini P, Burelli S, Belluzzi O, Schneider C, Beltrami CA. Multipotent cells can be generated in vitro from several adult human organs (heart, liver, and bone marrow) Blood. 2007;110:3438–3446. - PubMed

[7] D’Ippolito G, Diabira S, Howard GA, Menei P, Roos BA, Schiller PC. Marrow-isolated adult multilineage inducible (miami) cells, a unique population of postnatal young and old human cells with extensive expansion and differentiation potential. Journal of Cell Science. 2004;117:2971–2981. - PubMed

[8] D’Ippolito G, Diabira S, Howard GA, Menei P, Roos BA, Schiller PC. Marrow-isolated adult multilineage inducible (miami) cells, a unique population of postnatal young and old human cells with extensive expansion and differentiation potential. Journal of Cell Science. 2004;117:2971–2981. - PubMed

[9] Kogler G, Sensken S, Airey JA, Trapp T, Muschen M, Feldhahn N, Liedtke S, Sorg RV, Fischer J, Rosenbaum C, Greschat S, Knipper A, Bender J, Degistirici O, Gao J, Caplan AI, Colletti EJ, Almeida-Porada G, Muller HW, Zanjani E, Wernet P. A new human somatic stem cell from placental cord blood with intrinsic pluripotent differentiation potential. The Journal of Experimental Medicine. 2004;200:123–135. - PMC - PubMed

[10] Kogler G, Sensken S, Airey JA, Trapp T, Muschen M, Feldhahn N, Liedtke S, Sorg RV, Fischer J, Rosenbaum C, Greschat S, Knipper A, Bender J, Degistirici O, Gao J, Caplan AI, Colletti EJ, Almeida-Porada G, Muller HW, Zanjani E, Wernet P. A new human somatic stem cell from placental cord blood with intrinsic pluripotent differentiation potential. The Journal of Experimental Medicine. 2004;200:123–135. - PMC - PubMed

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A Novel View of the Adult Stem Cell Compartment From the Perspective of a Quiescent Population of Very Small Embryonic-Like Stem Cells

Affiliations

A Novel View of the Adult Stem Cell Compartment From the Perspective of a Quiescent Population of Very Small Embryonic-Like Stem Cells

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Conflict of interest statement

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