Erika Kužmová scite author profile

Erika Kužmová

4Publications

53Citation Statements Received

68Citation Statements Given

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Affiliations

Czech Academy of Sciences, Institute of Organic Chemistry and Biochemistry, Charles University, Czech Academy of Sciences

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Aggressive acute myeloid leukemia in PU.1/p53 double-mutant mice

et al. 2013

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PU.1 downregulation within hematopoietic stem and progenitor cells (HSPCs) is the primary mechanism for the development of acute myeloid leukemia (AML) in mice with homozygous deletion of the upstream regulatory element (URE) of PU.1 gene. p53 is a well-known tumor suppressor that is often mutated in human hematologic malignancies including AML and adds to their aggressiveness; however, its genetic deletion does not cause AML in mouse. Deletion of p53 in the PU.1(ure/ure) mice (PU.1(ure/ure)p53(-/-)) results in more aggressive AML with shortened overall survival. PU.1(ure/ure)p53(-/-) progenitors express significantly lower PU.1 levels. In addition to URE deletion we searched for other mechanisms that in the absence of p53 contribute to decreased PU.1 levels in PU.1(ure/ure)p53(-/-) mice. We found involvement of Myb and miR-155 in downregulation of PU.1 in aggressive murine AML. Upon inhibition of either Myb or miR-155 in vitro the AML progenitors restore PU.1 levels and lose leukemic cell growth similarly to PU.1 rescue. The MYB/miR-155/PU.1 axis is a target of p53 and is activated early after p53 loss as indicated by transient p53 knockdown. Furthermore, deregulation of both MYB and miR-155 coupled with PU.1 downregulation was observed in human AML, suggesting that MYB/miR-155/PU.1 mechanism may be involved in the pathogenesis of AML and its aggressiveness characterized by p53 mutation.

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Effect of Different Factors on Proliferation of Antler Cells, Cultured In Vitro

et al. 2011

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Antlers as a potential model for bone growth and development have become an object of rising interest. To elucidate processes explaining how antler growth is regulated, in vitro cultures have been established. However, until now, there has been no standard method to cultivate antler cells and in vitro results are often opposite to those reported in vivo. In addition, many factors which are often not taken into account under in vitro conditions may play an important role in the development of antler cells. In this study we investigated the effects of the antler growth stage, the male individuality, passaged versus primary cultures and the effect of foetal calf serum concentrations on proliferative potential of mixed antler cell cultures in vitro, derived from regenerating antlers of red deer males (Cervus elaphus). The proliferation potential of antler cells was measured by incorporation of 3H thymidine. Our results demonstrate that there is no significant effect of the antler growth stage, whereas male individuality and all other examined factors significantly affected antler cell proliferation. Furthermore, our results suggest that primary cultures may better represent in vivo conditions and processes occurring in regenerating antlers. In conclusion, before all main factors affecting antler cell proliferation in vitro will be satisfactorily investigated, results of in vitro studies focused on hormonal regulation of antler growth should be taken with extreme caution.

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Flow cytometric determination of cell cycle progression via direct labeling of replicated DNA

Kužmová

Zawada

Navratil

et al. 2021

Analytical Biochemistry

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Інтенсивна Терапія Крововтрати, Коагулопатії Та Гіповолемічного Шоку При Політравмі

Йовенко¹,

Kobeliatskyi²,

Tsariov³

et al. 2022

ЕМ

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Erika Kužmová

Aggressive acute myeloid leukemia in PU.1/p53 double-mutant mice

Effect of Different Factors on Proliferation of Antler Cells, Cultured In Vitro

Flow cytometric determination of cell cycle progression via direct labeling of replicated DNA

Інтенсивна Терапія Крововтрати, Коагулопатії Та Гіповолемічного Шоку При Політравмі

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