F. Ferri scite author profile

Non-coding RNAs are emerging as key players in many fundamental biological processes, including specification of higher-order chromatin structure. We examined the implication of RNA transcribed from mouse centromeric minor satellite repeats in the formation and function of centromere-associated complexes. Here we show that the levels of minor satellite RNA vary during cell-cycle progression, peaking in G2/M phase, concomitant with accumulation of proteins of the chromosomal passenger complex near the centromere. Consistent with this, we describe that murine minor satellite RNA are components of CENP-A-associated centromeric fractions and associate with proteins of the chromosomal passenger complex Aurora B and Survivin at the onset of mitosis. Interactions of endogenous Aurora B with CENP-A and Survivin are sensitive to RNaseA. Likewise, the kinase activity of Aurora B requires an RNA component. More importantly, Aurora B kinase activity can be potentiated by minor satellite RNA. In addition, decreased Aurora B activity after RNA depletion can be specifically rescued by restitution of these transcripts. Together, our data provide new functional evidence for minor satellite transcripts as key partners and regulators of the mitotic kinase Aurora B.

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Accumulation of small murine minor satellite transcripts leads to impaired centromeric architecture and function

Bouzinba-Ségard

Ferri

Francastel

2007

Blood Cells, Molecules, and Diseases

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RNAs have been implicated in the assembly and stabilization of large-scale chromatin structures including centromeric architecture; unidentified RNAs are integral components of human pericentric heterochromatin and are required for localization of the heterochromatin protein HP1 to centromeric regions. Because satellite repeats in centromeric regions are known to be transcribed, we assessed a role for noncoding centromeric RNAs in the structure and function of the centromere. We identified minor satellite transcripts of 120 nt in murine cells that localize to centromeres and accumulate upon stress or differentiation. Forced accumulation of 120-nt transcripts leads to defects in chromosome segregation and sister-chromatid cohesion, changes in hallmark centromeric epigenetic markers, and mislocalization of centromere-associated proteins essential for centromere function. These findings suggest that small centromeric RNAs may represent one of many pathways that regulate heterochromatin assembly in mammals, possibly through tethering of kinetochore-and heterochromatin-associated proteins.centromere ͉ centromeric transcripts ͉ kinetochore

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NKX3.1 is a direct TAL1 target gene that mediates proliferation of TAL1-expressing human T cell acute lymphoblastic leukemia

Kusy

Gerby

Goardon

et al. 2010

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TAL1 (also known as SCL) is expressed in >40% of human T cell acute lymphoblastic leukemias (T-ALLs). TAL1 encodes a basic helix-loop-helix transcription factor that can interfere with the transcriptional activity of E2A and HEB during T cell leukemogenesis; however, the oncogenic pathways directly activated by TAL1 are not characterized. In this study, we show that, in human TAL1–expressing T-ALL cell lines, TAL1 directly activates NKX3.1, a tumor suppressor gene required for prostate stem cell maintenance. In human T-ALL cell lines, NKX3.1 gene activation is mediated by a TAL1–LMO–Ldb1 complex that is recruited by GATA-3 bound to an NKX3.1 gene promoter regulatory sequence. TAL1-induced NKX3.1 activation is associated with suppression of HP1-α (heterochromatin protein 1 α) binding and opening of chromatin on the NKX3.1 gene promoter. NKX3.1 is necessary for T-ALL proliferation, can partially restore proliferation in TAL1 knockdown cells, and directly regulates miR-17-92. In primary human TAL1-expressing leukemic cells, the NKX3.1 gene is expressed independently of the Notch pathway, and its inactivation impairs proliferation. Finally, TAL1 or NKX3.1 knockdown abrogates the ability of human T-ALL cells to efficiently induce leukemia development in mice. These results suggest that tumor suppressor or oncogenic activity of NKX3.1 depends on tissue expression.

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Low-Dose Irradiation Promotes Persistent Oxidative Stress and Decreases Self-Renewal in Hematopoietic Stem Cells

et al. 2017

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Despite numerous observations linking protracted exposure to low-dose (LD) radiation and leukemia occurrence, the effects of LD irradiation on hematopoietic stem cells (HSCs) remain poorly documented. Here, we show that adult HSCs are hypersensitive to LD irradiation. This hyper-radiosensitivity is dependent on an immediate increase in the levels of reactive oxygen species (ROS) that also promotes autophagy and activation of the Keap1/Nrf2 antioxidant pathway. Nrf2 activation initially protects HSCs from the detrimental effects of ROS, but protection is transient, and increased ROS levels return, promoting a long-term decrease in HSC self-renewal. In vivo, LD total body irradiation (TBI) does not decrease HSC numbers unless the HSC microenvironment is altered by an inflammatory insult. Paradoxically, such an insult, in the form of granulocyte colony-stimulating factor (G-CSF) preconditioning, followed by LD-TBI facilitates efficient bone marrow transplantation without myeloablation. Thus, LD irradiation has long-term detrimental effects on HSCs that may result in hematological malignancies, but LD-TBI may open avenues to facilitate autologous bone marrow transplantation.

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Phagocytosis of Wnt inhibitor SFRP4 by late wound macrophages drives chronic Wnt activity for fibrotic skin healing

Ghinatti

Guerrero‐Juarez

Ferrer³

et al. 2020

Sci. Adv.

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Human and murine skin wounding commonly results in fibrotic scarring, but the murine wounding model wound-induced hair neogenesis (WIHN) can frequently result in a regenerative repair response. Here, we show in single-cell RNA sequencing comparisons of semi-regenerative and fibrotic WIHN wounds, increased expression of phagocytic/lysosomal genes in macrophages associated with predominance of fibrotic myofibroblasts in fibrotic wounds. Investigation revealed that macrophages in the late wound drive fibrosis by phagocytizing dermal Wnt inhibitor SFRP4 to establish persistent Wnt activity. In accordance, phagocytosis abrogation resulted in transient Wnt activity and a more regenerative healing. Phagocytosis of SFRP4 was integrin-mediated and dependent on the interaction of SFRP4 with the EDA splice variant of fibronectin. In the human skin condition hidradenitis suppurativa, phagocytosis of SFRP4 by macrophages correlated with fibrotic wound repair. These results reveal that macrophages can modulate a key signaling pathway via phagocytosis to alter the skin wound healing fate.

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TRIM33 switches off Ifnb1 gene transcription during the late phase of macrophage activation

et al. 2015

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Despite its importance during viral or bacterial infections, transcriptional regulation of the interferon-β gene (Ifnb1) in activated macrophages is only partially understood. Here we report that TRIM33 deficiency results in high, sustained expression of Ifnb1 at late stages of toll-like receptor-mediated activation in macrophages but not in fibroblasts. In macrophages, TRIM33 is recruited by PU.1 to a conserved region, the Ifnb1 Control Element (ICE), located 15 kb upstream of the Ifnb1 transcription start site. ICE constitutively interacts with Ifnb1 through a TRIM33-independent chromatin loop. At late phases of lipopolysaccharide activation of macrophages, TRIM33 is bound to ICE, regulates Ifnb1 enhanceosome loading, controls Ifnb1 chromatin structure and represses Ifnb1 gene transcription by preventing recruitment of CBP/p300. These results characterize a previously unknown mechanism of macrophage-specific regulation of Ifnb1 transcription whereby TRIM33 is critical for Ifnb1 gene transcription shutdown.

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Adult Hematopoiesis is Regulated by TIF1γ, a Repressor of TAL1 and PU.1 Transcriptional Activity

et al. 2011

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Crosstalk between transcription factors and cytokines precisely regulates tissue homeostasis. Transcriptional intermediary factor 1γ (TIF1γ) regulates vertebrate hematopoietic development, can control transcription elongation, and is a component of the TGF-β signaling pathway. Here we show that deletion of TIF1γ in adult hematopoiesis is compatible with life and long-term maintenance of essential blood cell lineages. However, loss of TIF1γ results in deficient long-term hematopoietic stem cell (LT-HSC) transplantation activity, deficient short-term HSC (ST-HSC) bone marrow retention, and priming ST-HSCs to myelomonocytic lineage. These defects are hematopoietic cell-autonomous, and priming of TIF1γ-deficient ST-HSCs can be partially rescued by wild-type hematopoietic cells. TIF1γ can form complexes with TAL1 or PU.1-two essential DNA-binding proteins in hematopoiesis-occupy specific subsets of their DNA binding sites in vivo, and repress their transcriptional activity. These results suggest a regulation of adult hematopoiesis through TIF1γ-mediated transcriptional repression of TAL1 and PU.1 target genes.

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Eicosapentaenoic acid stimulates the expression of myelin proteins in rat brain

Salvati

Natali

Attorri

et al. 2007

J of Neuroscience Research

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We have previously demonstrated that, in C6 glioma cells, eicosapentaenoic acid (EPA) stimulates the expression of proteolipid protein (PLP) via cAMP-mediated pathways. In this study, we investigated whether n-3 polyunsaturated fatty acids can affect myelinogenesis in vivo. A single dose of either EPA or docosahexaenoic acid (DHA) was injected intracerebroventricularly into 2-day-old rats, which were then killed after 3 days post-injection (p.i.). Total RNA was isolated from the medulla, cerebellum, and cortex, and the expression of myelin-specific mRNAs was analyzed by real-time PCR. The levels of PLP, myelin basic protein, and myelin oligodendrocyte protein mRNAs increased in nearly all brain regions of DHA- and EPA-treated animals, but the effect was more pronounced in EPA-treated rats. The enhancement in PLP transcript levels was followed by an increase in PLP translation in EPA-treated rats. A further indicator of accelerated myelination was the increase in 2'-3'-cyclic nucleotide 3'-phosphodiesterase (CNPase) protein levels. In EPA-treated rats, the increased expression of myelin genes coincided with a decrease of cAMP-response element-binding protein (CREB)-DNA binding in the cerebellum and cortex (1 hr p.i.). After 16 hr, this effect was still present in the same cerebral regions even though the decrease in EPA-treated rats was less pronounced than in controls. The down-regulation of CREB activity was due to a decrease in the levels of CREB phosphorylation. In conclusion, our data suggest that EPA stimulates the expression of specific myelin proteins through decreased CREB phosphorylation. These results corroborate the clinical studies of the n-3 PUFA beneficial effects on several demyelinating diseases.

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F. Ferri

Non-coding murine centromeric transcripts associate with and potentiate Aurora B kinase

Accumulation of small murine minor satellite transcripts leads to impaired centromeric architecture and function

NKX3.1 is a direct TAL1 target gene that mediates proliferation of TAL1-expressing human T cell acute lymphoblastic leukemia

Low-Dose Irradiation Promotes Persistent Oxidative Stress and Decreases Self-Renewal in Hematopoietic Stem Cells

Phagocytosis of Wnt inhibitor SFRP4 by late wound macrophages drives chronic Wnt activity for fibrotic skin healing

TRIM33 switches off Ifnb1 gene transcription during the late phase of macrophage activation

Adult Hematopoiesis is Regulated by TIF1γ, a Repressor of TAL1 and PU.1 Transcriptional Activity

Eicosapentaenoic acid stimulates the expression of myelin proteins in rat brain

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