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1.
Cell ; 178(1): 135-151.e19, 2019 06 27.
Artículo en Inglés | MEDLINE | ID: mdl-31251913

RESUMEN

Loss of BRCA1 p220 function often results in basal-like breast cancer (BLBC), but the underlying disease mechanism is largely opaque. In mammary epithelial cells (MECs), BRCA1 interacts with multiple proteins, including NUMB and HES1, to form complexes that participate in interstrand crosslink (ICL) DNA repair and MEC differentiation control. Unrepaired ICL damage results in aberrant transdifferentiation to a mesenchymal state of cultured, human basal-like MECs and to a basal/mesenchymal state in primary mouse luminal MECs. Loss of BRCA1, NUMB, or HES1 or chemically induced ICL damage in primary murine luminal MECs results in persistent DNA damage that triggers luminal to basal/mesenchymal transdifferentiation. In vivo single-cell analysis revealed a time-dependent evolution from normal luminal MECs to luminal progenitor-like tumor cells with basal/mesenchymal transdifferentiation during murine BRCA1 BLBC development. Growing DNA damage accompanied this malignant transformation.


Asunto(s)
Proteína BRCA1/genética , Neoplasias de la Mama/genética , Transdiferenciación Celular/genética , Daño del ADN/genética , Reparación del ADN/genética , Glándulas Mamarias Animales/patología , Animales , Proteína BRCA1/metabolismo , Neoplasias de la Mama/inducido químicamente , Neoplasias de la Mama/patología , Diferenciación Celular/genética , Transformación Celular Neoplásica , Modelos Animales de Enfermedad , Células Epiteliales/metabolismo , Femenino , Células HEK293 , Humanos , Células MCF-7 , Proteínas de la Membrana/metabolismo , Ratones , Ratones Transgénicos , Proteínas del Tejido Nervioso/metabolismo , Factor de Transcripción HES-1/metabolismo , Transfección
2.
Proc Natl Acad Sci U S A ; 117(4): 2084-2091, 2020 01 28.
Artículo en Inglés | MEDLINE | ID: mdl-31932421

RESUMEN

BRCA1 promotes error-free, homologous recombination-mediated repair (HRR) of DNA double-stranded breaks (DSBs). When excessive and uncontrolled, BRCA1 HRR activity promotes illegitimate recombination and genome disorder. We and others have observed that the BRCA1-associated protein RAP80 recruits BRCA1 to postdamage nuclear foci, and these chromatin structures then restrict the amplitude of BRCA1-driven HRR. What remains unclear is how this process is regulated. Here we report that both BRCA1 poly-ADP ribosylation (PARsylation) and the presence of BRCA1-bound RAP80 are critical for the normal interaction of BRCA1 with some of its partners (e.g., CtIP and BACH1) that are also known components of the aforementioned focal structures. Surprisingly, the simultaneous loss of RAP80 and failure therein of BRCA1 PARsylation results in the dysregulated accumulation in these foci of BRCA1 complexes. This in turn is associated with the intracellular development of a state of hyper-recombination and gross chromosomal disorder. Thus, physiological RAP80-BRCA1 complex formation and BRCA1 PARsylation contribute to the kinetics by which BRCA1 HRR-sustaining complexes normally concentrate in nuclear foci. These events likely contribute to aneuploidy suppression.


Asunto(s)
Proteína BRCA1/metabolismo , Proteínas de Unión al ADN/metabolismo , Chaperonas de Histonas/metabolismo , Reparación del ADN por Recombinación , Proteína BRCA1/genética , Factores de Transcripción con Cremalleras de Leucina de Carácter Básico/genética , Factores de Transcripción con Cremalleras de Leucina de Carácter Básico/metabolismo , Proteínas Portadoras/genética , Proteínas Portadoras/metabolismo , Línea Celular , Cromosomas/genética , Cromosomas/metabolismo , Daño del ADN , Proteínas de Unión al ADN/genética , Endodesoxirribonucleasas/genética , Endodesoxirribonucleasas/metabolismo , Chaperonas de Histonas/genética , Humanos , Proteínas Nucleares/genética , Proteínas Nucleares/metabolismo , Poli ADP Ribosilación , Unión Proteica
3.
Curr Genet ; 64(1): 87-96, 2018 Feb.
Artículo en Inglés | MEDLINE | ID: mdl-28770345

RESUMEN

Polo-like kinases are essential cell cycle regulators that are conserved from yeast to humans. Unlike higher eukaryotes, who express multiple Polo-like kinase family members that perform many important functions, budding yeast express only a single Polo-like kinase, Cdc5, which is the homolog of mammalian cell cycle master regulator Polo-like kinase 1. Cdc5 is a fascinating multifaceted protein that is programmed to target its many substrates in a timely, sequential manner to ensure proper cell cycle progression. Over the years, many lessons about Polo-like kinase 1 have been learned by studying Cdc5 in budding yeast. Cdc5 has been well documented in regulating mitotic entry, chromosome segregation, mitotic exit, and cytokinesis. Cdc5 also plays important roles during cell division after DNA damage. Here, we briefly review the many functions of Cdc5 and its regulation in the absence and presence of DNA damage.


Asunto(s)
Proteínas de Ciclo Celular/metabolismo , Daño del ADN , Proteínas Serina-Treonina Quinasas/metabolismo , Proteínas Proto-Oncogénicas/metabolismo , Ciclo Celular , Núcleo Celular/genética , Núcleo Celular/metabolismo , Activación Enzimática , Mitosis , Transporte de Proteínas , Saccharomycetales/genética , Saccharomycetales/metabolismo , Quinasa Tipo Polo 1
4.
Nat Commun ; 12(1): 3542, 2021 06 10.
Artículo en Inglés | MEDLINE | ID: mdl-34112789

RESUMEN

R-loop structures act as modulators of physiological processes such as transcription termination, gene regulation, and DNA repair. However, they can cause transcription-replication conflicts and give rise to genomic instability, particularly at telomeres, which are prone to forming DNA secondary structures. Here, we demonstrate that BRCA1 binds TERRA RNA, directly and physically via its N-terminal nuclear localization sequence, as well as telomere-specific shelterin proteins in an R-loop-, and a cell cycle-dependent manner. R-loop-driven BRCA1 binding to CpG-rich TERRA promoters represses TERRA transcription, prevents TERRA R-loop-associated damage, and promotes its repair, likely in association with SETX and XRN2. BRCA1 depletion upregulates TERRA expression, leading to overly abundant TERRA R-loops, telomeric replication stress, and signs of telomeric aberrancy. Moreover, BRCA1 mutations within the TERRA-binding region lead to an excess of TERRA-associated R-loops and telomeric abnormalities. Thus, normal BRCA1/TERRA binding suppresses telomere-centered genome instability.


Asunto(s)
Proteína BRCA1/metabolismo , Daño del ADN/genética , Estructuras R-Loop , ARN Largo no Codificante/metabolismo , Telómero/metabolismo , Proteína BRCA1/genética , Ciclo Celular/genética , Línea Celular Tumoral , Inmunoprecipitación de Cromatina , Cromatografía Liquida , Islas de CpG , ADN Helicasas/metabolismo , Exorribonucleasas/metabolismo , Humanos , Hibridación Fluorescente in Situ , Espectrometría de Masas , Enzimas Multifuncionales/metabolismo , Mutación , Regiones Promotoras Genéticas , Unión Proteica , Estructuras R-Loop/genética , ARN Helicasas/metabolismo , ARN Largo no Codificante/genética , ARN Interferente Pequeño , Telómero/genética
5.
Mol Biol Cell ; 28(8): 1011-1020, 2017 Apr 15.
Artículo en Inglés | MEDLINE | ID: mdl-28228549

RESUMEN

The budding yeast Polo-like kinase Cdc5 is a key regulator of many mitotic events. Cdc5 coordinates its functions spatially and temporally by changing its localization during the cell cycle: Cdc5 is imported into the nucleus in G2 phase and released to the cytoplasm in anaphase, where it accumulates at the bud neck. Cdc5 also localizes to the spindle pole bodies (SPBs) from S phase until the end of mitosis. Whether Cdc5 changes its SPB population during the cell cycle is not known. We find that Cdc5 localizes to distinct SPB subpopulations, depending on the mitotic stage. Cdc5 localizes to the nuclear side of the SPBs during metaphase and early anaphase and to the cytoplasmic surface of the SPBs during late anaphase. Cdc14 is necessary to relocalize Cdc5 from the nuclear SPB plaque. Accumulation of Cdc5 at the daughter SPB in late anaphase is controlled by Bfa1. We also show that Cdc5 and Bfa1 are found in spatially distinct locations at the SPBs during G2/M arrest after DNA damage. Collectively our data reveal that Cdc5 is a dynamic component of the SPBs during mitosis and provide new insight into its regulation during both late mitotic events and DNA damage-induced G2/M arrest.


Asunto(s)
Proteínas de Ciclo Celular/metabolismo , Centrosoma/enzimología , Mitosis/fisiología , Proteínas Serina-Treonina Quinasas/metabolismo , Saccharomycetales/citología , Saccharomycetales/enzimología , Cuerpos Polares del Huso/metabolismo , Ciclo Celular/fisiología , Núcleo Celular/metabolismo , Proteínas del Citoesqueleto/metabolismo , Proteínas de Saccharomyces cerevisiae/metabolismo , Saccharomycetales/genética , Huso Acromático/metabolismo
6.
Cell Cycle ; 13(20): 3260-70, 2014.
Artículo en Inglés | MEDLINE | ID: mdl-25485506

RESUMEN

Polo-like kinases are important regulators of multiple mitotic events; however, how Polo-like kinases are spatially and temporally regulated to perform their many tasks is not well understood. Here, we examined the subcellular localization of the budding yeast Polo-like kinase Cdc5 using a functional Cdc5-GFP protein expressed from the endogenous locus. In addition to the well-described localization of Cdc5 at the spindle pole bodies (SPBs) and the bud neck, we found that Cdc5-GFP accumulates in the nucleus in early mitosis but is released to the cytoplasm in late mitosis in a manner dependent on the Cdc14 phosphatase. This Cdc5 release from the nucleus is important for mitotic exit because artificial sequestration of Cdc5 in the nucleus by addition of a strong nuclear localization signal (NLS) resulted in mitotic exit defects. We identified a key cytoplasmic target of Cdc5 as Bfa1, an inhibitor of mitotic exit. Our study revealed a novel layer of Cdc5 regulation and suggests the existence of a possible coordination between Cdc5 and Cdc14 activity.


Asunto(s)
Anafase/fisiología , Anafase/genética , Animales , Proteínas de Ciclo Celular/genética , Proteínas de Ciclo Celular/metabolismo , Núcleo Celular/metabolismo , Humanos , Mitosis/genética , Mitosis/fisiología , Proteínas Serina-Treonina Quinasas/genética , Proteínas Serina-Treonina Quinasas/metabolismo , Saccharomycetales/enzimología , Saccharomycetales/metabolismo
7.
Mol Biol Cell ; 23(1): 111-20, 2012 Jan.
Artículo en Inglés | MEDLINE | ID: mdl-22072792

RESUMEN

Radial spokes (RSs) play an essential role in the regulation of axonemal dynein activity and thus of ciliary and flagellar motility. However, few details are known about the complexes involved. Using cryo-electron tomography and subtomogram averaging, we visualized the three-dimensional structure of the radial spokes in Chlamydomonas flagella in unprecedented detail. Unlike many other species, Chlamydomonas has only two spokes per axonemal repeat, RS1 and RS2. Our data revealed previously uncharacterized features, including two-pronged spoke bases that facilitate docking to the doublet microtubules, and that inner dyneins connect directly to the spokes. Structures of wild type and the headless spoke mutant pf17 were compared to define the morphology and boundaries of the head, including a direct RS1-to-RS2 interaction. Although the overall structures of the spokes are very similar, we also observed some differences, corroborating recent findings about heterogeneity in the docking of RS1 and RS2. In place of a third radial spoke we found an uncharacterized, shorter electron density named "radial spoke 3 stand-in," which structurally bears no resemblance to RS1 and RS2 and is unaltered in the pf17 mutant. These findings demonstrate that radial spokes are heterogeneous in structure and may play functionally distinct roles in axoneme regulation.


Asunto(s)
Chlamydomonas reinhardtii/ultraestructura , Dineínas/metabolismo , Flagelos/ultraestructura , Proteínas de Plantas/metabolismo , Axonema/ultraestructura , Microscopía por Crioelectrón , Tomografía con Microscopio Electrónico , Flagelos/metabolismo , Modelos Moleculares , Unión Proteica , Estructura Cuaternaria de Proteína
8.
J Invest Dermatol ; 130(2): 398-404, 2010 Feb.
Artículo en Inglés | MEDLINE | ID: mdl-19710687

RESUMEN

BMP signaling has a crucial role in skin development and homeostasis, whereas molecular mechanisms underlying its involvement in regulating gene expression programs in keratinocytes and fibroblasts remain largely unknown. We show here that several BMP ligands, all BMP receptors, and BMP-associated Smad1/5/8 are expressed in human primary epidermal keratinocytes and dermal fibroblasts. Treatment of both cell types by BMP-4 resulted in the activation of the BMP-Smad, but not BMP-MAPK pathways. Global microarray analysis revealed that BMP-4 treatment induces distinct and cell type-specific changes in gene expression programs in keratinocytes and fibroblasts, which are far more complex than the effects of BMPs on cell proliferation/differentiation described earlier. Furthermore, our data suggest that the potential modulation of cell adhesion, extracellular matrix remodeling, motility, metabolism, signaling, and transcription by BMP-4 in keratinocytes and fibroblasts is likely to be achieved by the distinct and cell-type-specific sets of molecules. Thus, these data provide an important basis for delineating mechanisms that underlie the distinct effects of the BMP pathway on different cell populations in the skin, and will be helpful in further establishing molecular signaling networks regulating skin homeostasis in health and disease.


Asunto(s)
Proteínas Morfogenéticas Óseas/metabolismo , Fibroblastos/citología , Perfilación de la Expresión Génica , Queratinocitos/citología , Activinas/metabolismo , Adhesión Celular , Células Cultivadas , Matriz Extracelular/metabolismo , Fibroblastos/metabolismo , Regulación de la Expresión Génica , Humanos , Ligandos , Modelos Biológicos , Análisis de Secuencia por Matrices de Oligonucleótidos , Transducción de Señal , Factor de Crecimiento Transformador beta/metabolismo
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