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1.
Development ; 150(9)2023 05 01.
Artículo en Inglés | MEDLINE | ID: mdl-36994838

RESUMEN

Transcriptional networks governing cardiac precursor cell (CPC) specification are incompletely understood owing, in part, to limitations in distinguishing CPCs from non-cardiac mesoderm in early gastrulation. We leveraged detection of early cardiac lineage transgenes within a granular single-cell transcriptomic time course of mouse embryos to identify emerging CPCs and describe their transcriptional profiles. Mesp1, a transiently expressed mesodermal transcription factor, is canonically described as an early regulator of cardiac specification. However, we observed perdurance of CPC transgene-expressing cells in Mesp1 mutants, albeit mislocalized, prompting us to investigate the scope of the role of Mesp1 in CPC emergence and differentiation. Mesp1 mutant CPCs failed to robustly activate markers of cardiomyocyte maturity and crucial cardiac transcription factors, yet they exhibited transcriptional profiles resembling cardiac mesoderm progressing towards cardiomyocyte fates. Single-cell chromatin accessibility analysis defined a Mesp1-dependent developmental breakpoint in cardiac lineage progression at a shift from mesendoderm transcriptional networks to those necessary for cardiac patterning and morphogenesis. These results reveal Mesp1-independent aspects of early CPC specification and underscore a Mesp1-dependent regulatory landscape required for progression through cardiogenesis.


Asunto(s)
Factores de Transcripción con Motivo Hélice-Asa-Hélice Básico , Epigenómica , Miocitos Cardíacos , Animales , Ratones , Factores de Transcripción con Motivo Hélice-Asa-Hélice Básico/metabolismo , Diferenciación Celular/fisiología , Regulación del Desarrollo de la Expresión Génica , Mesodermo/metabolismo , Miocitos Cardíacos/metabolismo , Factores de Transcripción/metabolismo
2.
Cell ; 186(3): 479-496.e23, 2023 02 02.
Artículo en Inglés | MEDLINE | ID: mdl-36736300

RESUMEN

Using four-dimensional whole-embryo light sheet imaging with improved and accessible computational tools, we longitudinally reconstruct early murine cardiac development at single-cell resolution. Nascent mesoderm progenitors form opposing density and motility gradients, converting the temporal birth sequence of gastrulation into a spatial anterolateral-to-posteromedial arrangement. Migrating precardiac mesoderm does not strictly preserve cellular neighbor relationships, and spatial patterns only become solidified as the cardiac crescent emerges. Progenitors undergo a mesenchymal-to-epithelial transition, with a first heart field (FHF) ridge apposing a motile juxta-cardiac field (JCF). Anchored along the ridge, the FHF epithelium rotates the JCF forward to form the initial heart tube, along with push-pull morphodynamics of the second heart field. In Mesp1 mutants that fail to make a cardiac crescent, mesoderm remains highly motile but directionally incoherent, resulting in density gradient inversion. Our practicable live embryo imaging approach defines spatial origins and behaviors of cardiac progenitors and identifies their unanticipated morphological transitions.


Asunto(s)
Corazón , Mesodermo , Ratones , Animales , Diferenciación Celular , Morfogénesis , Embrión de Mamíferos , Mamíferos
3.
Nat Commun ; 12(1): 7186, 2021 12 10.
Artículo en Inglés | MEDLINE | ID: mdl-34893605

RESUMEN

How tubular organs elongate is poorly understood. We found that attenuated ciliary Hedgehog signaling in the gut wall impaired patterning of the circumferential smooth muscle and inhibited proliferation and elongation of developing intestine and esophagus. Similarly, ablation of gut-wall smooth muscle cells reduced lengthening. Disruption of ciliary Hedgehog signaling or removal of smooth muscle reduced residual stress within the gut wall and decreased activity of the mechanotransductive effector YAP. Removing YAP in the mesenchyme also reduced proliferation and elongation, but without affecting smooth muscle formation, suggesting that YAP interprets the smooth muscle-generated force to promote longitudinal growth. Additionally, we developed an intestinal culture system that recapitulates the requirements for cilia and mechanical forces in elongation. Pharmacologically activating YAP in this system restored elongation of cilia-deficient intestines. Thus, our results reveal that ciliary Hedgehog signaling patterns the circumferential smooth muscle to generate radial mechanical forces that activate YAP and elongate the gut.


Asunto(s)
Tracto Gastrointestinal , Proteínas Hedgehog/genética , Proteínas Hedgehog/metabolismo , Transducción de Señal/fisiología , Animales , Proliferación Celular , Cilios/metabolismo , Mesodermo/metabolismo , Ratones , Músculo Liso/metabolismo , Miocitos del Músculo Liso/metabolismo , Proteínas Serina-Treonina Quinasas/metabolismo
4.
J Clin Invest ; 131(6)2021 03 15.
Artículo en Inglés | MEDLINE | ID: mdl-33476305

RESUMEN

Medulloblastoma is an aggressive pediatric brain tumor that can be driven by misactivation of the Hedgehog (HH) pathway. CDK6 is a critical effector of oncogenic HH signaling, but attempts to target the HH pathway in medulloblastoma have been encumbered by resistance to single-agent molecular therapy. We identified mechanisms of resistance to CDK6 inhibition in HH-associated medulloblastoma by performing orthogonal CRISPR and CRISPR interference screens in medulloblastoma cells treated with a CDK4/6 inhibitor and RNA-Seq of a mouse model of HH-associated medulloblastoma with genetic deletion of Cdk6. Our concordant in vitro and in vivo data revealed that decreased ribosomal protein expression underlies resistance to CDK6 inhibition in HH-associated medulloblastoma, leading to ER stress and activation of the unfolded protein response (UPR). These pathways increased the activity of enzymes producing Smoothened-activating (SMO-activating) sterol lipids that sustained oncogenic HH signaling in medulloblastoma despite cell-cycle attenuation. We consistently demonstrated that concurrent genetic deletion or pharmacological inhibition of CDK6 and HSD11ß2, an enzyme producing SMO-activating lipids, additively blocked cancer growth in multiple mouse genetic models of HH-associated medulloblastoma. Our data reveal what we believe to be a novel pathway of resistance to CDK4/6 inhibition as well as a novel combination therapy to treat the most common malignant brain tumor in children.


Asunto(s)
Neoplasias Cerebelosas/metabolismo , Quinasa 4 Dependiente de la Ciclina/antagonistas & inhibidores , Quinasa 6 Dependiente de la Ciclina/antagonistas & inhibidores , Proteínas Hedgehog/metabolismo , Meduloblastoma/metabolismo , Receptor Smoothened/metabolismo , 11-beta-Hidroxiesteroide Deshidrogenasa de Tipo 2/metabolismo , Animales , Línea Celular Tumoral , Neoplasias Cerebelosas/tratamiento farmacológico , Neoplasias Cerebelosas/patología , Modelos Animales de Enfermedad , Resistencia a Antineoplásicos , Humanos , Metabolismo de los Lípidos , Meduloblastoma/tratamiento farmacológico , Meduloblastoma/patología , Ratones , Inhibidores de Proteínas Quinasas/farmacología , Ribosomas/efectos de los fármacos , Ribosomas/metabolismo , Transducción de Señal
5.
Mol Cell ; 72(2): 316-327.e5, 2018 10 18.
Artículo en Inglés | MEDLINE | ID: mdl-30340023

RESUMEN

Primary cilia are required for Smoothened to transduce vertebrate Hedgehog signals, but how Smoothened accumulates in cilia and is activated is incompletely understood. Here, we identify cilia-associated oxysterols that promote Smoothened accumulation in cilia and activate the Hedgehog pathway. Our data reveal that cilia-associated oxysterols bind to two distinct Smoothened domains to modulate Smoothened accumulation in cilia and tune the intensity of Hedgehog pathway activation. We find that the oxysterol synthase HSD11ß2 participates in the production of Smoothened-activating oxysterols and promotes Hedgehog pathway activity. Inhibiting oxysterol biosynthesis impedes oncogenic Hedgehog pathway activation and attenuates the growth of Hedgehog pathway-associated medulloblastoma, suggesting that targeted inhibition of Smoothened-activating oxysterol production may be therapeutically useful for patients with Hedgehog-associated cancers.


Asunto(s)
Cilios/efectos de los fármacos , Cilios/metabolismo , Oxiesteroles/farmacología , Animales , Línea Celular , Células HEK293 , Proteínas Hedgehog/metabolismo , Humanos , Ratones , Células 3T3 NIH , Transducción de Señal/efectos de los fármacos
6.
J Clin Invest ; 128(1): 120-124, 2018 01 02.
Artículo en Inglés | MEDLINE | ID: mdl-29202464

RESUMEN

Medulloblastoma, an aggressive cancer of the cerebellum, is among the most common pediatric brain tumors. Approximately one-third of medulloblastomas are associated with misactivation of the Hedgehog (Hh) pathway. GLI family zinc finger 2 (GLI2) coordinates the Hh transcriptional program; however, the GLI2 targets that promote cancer cell proliferation are unknown. Here, we incorporated a Gli2-EGFP allele into 2 different genetic mouse models of Hh-associated medulloblastoma. Hh signaling induced GLI2 binding to the Cdk6 promoter and activated Cdk6 expression, thereby promoting uncontrolled cell proliferation. Genetic or pharmacological inhibition of CDK6 in mice repressed the growth of Hh-associated medulloblastoma and prolonged survival through inhibition of cell proliferation. In human medulloblastoma, misactivation of Hh signaling was associated with high levels of CDK6, pointing to CDK6 as a direct transcriptional target of the Hh pathway. These results suggest that CDK6 antagonists may be a promising therapeutic approach for Hh-associated medulloblastoma in humans.


Asunto(s)
Proliferación Celular , Neoplasias Cerebelosas/metabolismo , Quinasa 6 Dependiente de la Ciclina/metabolismo , Proteínas Hedgehog/metabolismo , Meduloblastoma/metabolismo , Proteínas de Neoplasias/metabolismo , Transducción de Señal , Animales , Línea Celular Tumoral , Supervivencia Celular , Neoplasias Cerebelosas/genética , Neoplasias Cerebelosas/patología , Quinasa 6 Dependiente de la Ciclina/genética , Femenino , Proteínas Hedgehog/genética , Humanos , Meduloblastoma/genética , Meduloblastoma/patología , Ratones , Proteínas de Neoplasias/genética , Proteínas Nucleares/genética , Proteínas Nucleares/metabolismo , Proteína Gli2 con Dedos de Zinc/genética , Proteína Gli2 con Dedos de Zinc/metabolismo
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