Mirian Santos de Moraes scite author profile

Mirian Santos de Moraes

3Publications

27Citation Statements Received

65Citation Statements Given

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Affiliations

Universidade Brasil, Universidade de São Paulo

Publications

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c-Myc protein is stabilized by fibroblast growth factor 2 and destabilized by ACTH to control cell cycle in mouse Y1 adrenocortical cells

Lepique¹,

Moraes²,

Rocha³

et al. 2004

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ACTH is the hormone known to control adrenal cortex function and maintenance in the intact animal but, in culture, it inhibits proliferation of adrenocortical cells from different mammalian species, a puzzle that has remained unsolved for nearly 30 years. In this paper we compare ACTH and fibroblast growth factor 2 (FGF2) antagonistic effects on the cell cycle in the Y1 cell line, a functional lineage of mouse adrenocortical tumor cells. This cell line displays chronic high levels of c-Ki-Ras-GTP, high active constitutive levels of phosphatidylinositol 3-OH kinase/Protein Kinase B (PI3K/AKT) and low constitutive basal expression of c-Myc, which accounts for a minor deregulation of the cell cycle. In G 0 /G 1 -arrested Y1 cells, over-expression of the dominant negative mutant HaRasN17 drastically reduces c-Ki-Ras-GTP levels, eliminating basal c-Myc expression and basal S phase entry. PI3K/Akt seems to be the downstream pathway from c-Ki-ras for deregulation of c-Myc basal expression, since wortmannin abolishes c-Myc expression in serum-starved, G 0 /G 1 -arrested Y1 cells. FGF2 is a strong mitogen for Y1 cells, promoting -in a manner dependent on the MEK/ERK pathway -c-myc transcription induction, c-Myc protein stabilization and S phase entry in G 0 /G 1 -arrested Y1 cells. On the other hand, ACTH causes c-Myc protein destabilization, partially blocking S phase entry induced by FGF2, by a process dependent on the cAMP/protein kinase A (PKA) pathway. The whole pathway activated by ACTH to destabilize c-Myc protein in Y1 cells might comprise the following steps: ACTH receptor , cAMP/PKA , Akt deactivation , GSK3 activity liberation , c-Myc Thr58 phosphorylation.We demonstrate that c-Myc regulation is a central key in the cell cycle control by these factors, since enforced expression of c-Myc through the MycER chimera abrogates the ACTH inhibitory effect over FGF2-induced S phase entry.

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Molecular Mechanisms of Cell Cycle Control in the Mouse Y1 Adrenal Cell Line

et al. 2004

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Y1 adrenocortical tumor cells possess amplified and overexpressed c-Ki-ras proto-oncogene, displaying chronic high levels of the c-Ki-Ras-GTP protein. Despite this oncogenic lesion, we previously reported that Y1 cells retain tight regulatory mechanisms of cell cycle control typified by the mitogenic response triggered by FGF2 in G0/G1-arrested cells. ACTH, on the other hand, elicits cAMP/PKA-mediated antimitogenic mechanisms involving Akt/PKB dephosphorylation/deactivation and c-Myc protein degradation, blocking G1 phase progression stimulated by FGF2. In this paper we report that ACTH does not directly antagonize any of the early or late sequential steps comprising the mitogenic response triggered by FGF2. In effect, ACTH targets deactivation of constitutively phosphorylated-Akt, restraining the potential of c-Ki-Ras-GTP to subvert Y1 cell cycle control. Thus, we can consider ACTH a tumor suppressor rather than an antimitogenic hormone. In addition, we present initial results showing that high constitutive levels of c-Ki-Ras-GTP render Y1 cells susceptible to dye upon FGF2 treatment. This surprising FGF2 death-effect, that is independent of the well known FGF2-mitogenic activity, might involve a natural unsuspected mechanism for restraining oncogene-induced proliferation.

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c-Ki-ras oncogene amplification and FGF2 signaling pathways in the mouse Y1 adrenocortical cell line

Forti

Costa

Rocha

et al. 2006

An. Acad. Bras. Ciênc.

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The mouse Y1 adrenocortical tumor cell line is highly responsive to FGF2-(Fibroblast Growth Factor 2) and possesses amplifi ed and over-expressed c-Ki-ras proto-oncogene. We previously reported that this genetic lesion leads to high constitutive levels of activation of the c-Ki-Ras-GTP→PI3K→Akt signaling pathway (Forti et al. 2002). On the other hand, activation levels of another important pathway downstream of c-Ki-Ras-GTP, namely, Raf→MEK→ ERK, remain strictly dependent on FGF2 stimulation (Rocha et al.

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