[HTML][HTML] Human cytotrophoblasts acquire aneuploidies as they differentiate to an invasive phenotype
JF Weier, HUG Weier, CJ Jung, M Gormley, Y Zhou… - Developmental …, 2005 - Elsevier
JF Weier, HUG Weier, CJ Jung, M Gormley, Y Zhou, LW Chu, O Genbacev, AA Wright…
Developmental biology, 2005•ElsevierThrough an unusual differentiation process, human trophoblast progenitors
(cytotrophoblasts) give rise to tumor-like cells that invade the uterus. By an unknown
mechanism, invasive cytotrophoblasts exhibit permanent cell cycle withdrawal. Here, we
report molecular cytogenetic data showing that∼ 20 to 60% of these interphase cells had
acquired aneusomies involving chromosomes X, Y, or 16. The incidence positively
correlated with gestational age and differentiation to an invasive phenotype. Scoring 12 …
(cytotrophoblasts) give rise to tumor-like cells that invade the uterus. By an unknown
mechanism, invasive cytotrophoblasts exhibit permanent cell cycle withdrawal. Here, we
report molecular cytogenetic data showing that∼ 20 to 60% of these interphase cells had
acquired aneusomies involving chromosomes X, Y, or 16. The incidence positively
correlated with gestational age and differentiation to an invasive phenotype. Scoring 12 …
Through an unusual differentiation process, human trophoblast progenitors (cytotrophoblasts) give rise to tumor-like cells that invade the uterus. By an unknown mechanism, invasive cytotrophoblasts exhibit permanent cell cycle withdrawal. Here, we report molecular cytogenetic data showing that ∼20 to 60% of these interphase cells had acquired aneusomies involving chromosomes X, Y, or 16. The incidence positively correlated with gestational age and differentiation to an invasive phenotype. Scoring 12 chromosomes in flow-sorted cytotrophoblasts showed that more than 95% of the cells were hyperdiploid. Thus, aneuploidy appears to be an important component of normal placentation, perhaps limiting the proliferative and invasive potential of cytotrophoblasts within the uterus.
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