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1.
Nucleic Acids Res ; 44(18): 8693-8703, 2016 Oct 14.
Artigo em Inglês | MEDLINE | ID: mdl-27325744

RESUMO

Angiogenesis is recognized as an important hallmark of cancer. Although telomerase is thought to be involved in tumor angiogenesis, the evidence and underlying mechanism remain elusive. Here, we demonstrate that human telomerase reverse transcriptase (hTERT) activates vascular epithelial growth factor (VEGF) gene expression through interactions with the VEGF promoter and the transcription factor Sp1. hTERT binds to Sp1 in vitro and in vivo and stimulates angiogenesis in a manner dependent on Sp1. Deletion of the mTert gene in the first generation of Tert null mice compromised tumor growth, with reduced VEGF expression. In addition, we show that hTERT expression levels are positively correlated with those of VEGF in human gastric tumor samples. Together, our results demonstrate that hTERT facilitates tumor angiogenesis by up-regulating VEGF expression through direct interactions with the VEGF gene and the Sp1 transcription factor. These results provide novel insights into hTERT function in tumor progression in addition to its role in telomere maintenance.


Assuntos
Neovascularização Patológica/metabolismo , Fator de Transcrição Sp1/metabolismo , Telomerase/metabolismo , Fator A de Crescimento do Endotélio Vascular/genética , Animais , Carcinogênese/metabolismo , Carcinogênese/patologia , Proliferação de Células , Regulação Neoplásica da Expressão Gênica , Células HeLa , Células Endoteliais da Veia Umbilical Humana/metabolismo , Humanos , Camundongos Endogâmicos C57BL , Neovascularização Fisiológica , Molécula-1 de Adesão Celular Endotelial a Plaquetas/metabolismo , Regiões Promotoras Genéticas , Ligação Proteica/genética , Neoplasias Gástricas/irrigação sanguínea , Neoplasias Gástricas/genética , Transcrição Gênica , Regulação para Cima/genética , Fator A de Crescimento do Endotélio Vascular/metabolismo
2.
Cell Rep ; 42(7): 112819, 2023 07 25.
Artigo em Inglês | MEDLINE | ID: mdl-37454291

RESUMO

The Notch signaling pathway controls cell growth, differentiation, and fate decisions. Dysregulation of Notch signaling has been linked to various human diseases. Notch receptor resides in multiple cellular compartments, and its translocation plays a central role in pathway activation. However, the spatial regulation of Notch receptor functions remains largely elusive. Using TurboID-based proximity labeling followed by affinity purification and mass spectrometry, we establish a spatially defined human Notch receptor interaction network. Notch receptors interact with different proteins in distinct subcellular compartments to perform specific cellular functions. This spatially defined interaction network also reveals that a large fraction of NOTCH is stored at the endoplasmic reticulum (ER)-Golgi intermediate compartment and recruits Ataxin-2-dependent recycling machinery for rapid recycling, Notch signaling activation, and leukemogenesis. Our work provides insights into dynamic Notch receptor complexes with exquisite spatial resolution, which will help in elucidating the detailed regulation of Notch receptors and highlight potential therapeutic targets for Notch-related pathogenesis.


Assuntos
Ataxina-2 , Receptores Notch , Humanos , Receptores Notch/metabolismo , Ataxina-2/metabolismo , Organelas/metabolismo , Transdução de Sinais , Diferenciação Celular , Receptor Notch1/metabolismo
3.
Cell Res ; 33(11): 821-834, 2023 11.
Artigo em Inglês | MEDLINE | ID: mdl-37500768

RESUMO

Maternal age at childbearing has continued to increase in recent decades. However, whether and how it influences offspring adult traits are largely unknown. Here, using adult body size as the primary readout, we reveal that maternal rather than paternal age has an evolutionarily conserved effect on offspring adult traits in humans, Drosophila, and Caenorhabditis elegans. Elucidating the mechanisms of such effects in humans and other long-lived animals remains challenging due to their long life course and difficulties in conducting in vivo studies. We thus employ the short-lived and genetically tractable nematode C. elegans to explore the mechanisms underlying the regulation of offspring adult trait by maternal aging. By microscopic analysis, we find that old worms transmit aged mitochondria with a donut-like shape to offspring. These mitochondria are rejuvenated in the offspring's early life, with their morphology fully restored before adulthood in an AMPK-dependent manner. Mechanistically, we demonstrate that early-life mitochondrial dysfunction activates AMPK, which in turn not only alleviates mitochondrial abnormalities but also activates TGFß signaling to increase offspring adult size. Together, our findings provide mechanistic insight into the ancient role of maternal aging in shaping the traits of adult offspring.


Assuntos
Proteínas Quinases Ativadas por AMP , Caenorhabditis elegans , Animais , Humanos , Adulto , Idoso , Envelhecimento/fisiologia , Tamanho Corporal , Mitocôndrias
4.
Cell Rep ; 40(12): 111381, 2022 09 20.
Artigo em Inglês | MEDLINE | ID: mdl-36130518

RESUMO

Vitamin B12 (B12) deficiency is a critical problem worldwide. Such deficiency in infants has long been known to increase the propensity to develop obesity and diabetes later in life through unclear mechanisms. Here, we establish a Caenorhabditis elegans model to study how early-life B12 impacts adult health. We find that early-life B12 deficiency causes increased lipogenesis and lipid peroxidation in adult worms, which in turn induces germline defects through ferroptosis. Mechanistically, we show the central role of the methionine cycle-SBP-1/SREBP1-lipogenesis axis in programming adult traits by early-life B12. Moreover, SBP-1/SREBP1 participates in a crucial feedback loop with NHR-114/HNF4 to maintain cellular B12 homeostasis. Inhibition of SBP-1/SREBP1-lipogenesis signaling and ferroptosis later in life can reverse disorders in adulthood when B12 cannot. Overall, this study provides mechanistic insights into the life-course effects of early-life B12 on the programming of adult health and identifies potential targets for future interventions for adiposity and infertility.


Assuntos
Proteínas de Caenorhabditis elegans , Caenorhabditis elegans , Animais , Caenorhabditis elegans/metabolismo , Proteínas de Caenorhabditis elegans/metabolismo , Peroxidação de Lipídeos , Lipogênese , Metionina , Fatores de Transcrição/metabolismo , Vitamina B 12
5.
Dev Cell ; 56(20): 2902-2919.e8, 2021 10 25.
Artigo em Inglês | MEDLINE | ID: mdl-34626540

RESUMO

The Notch signaling pathway controls cell growth, differentiation, and fate decisions, and its dysregulation has been linked to various human genetic disorders and cancers. To comprehensively understand the global organization of the Notch pathway and identify potential drug targets for Notch-related diseases, we established a protein interaction landscape for the human Notch pathway. By combining and analyzing genetic and phenotypic data with bioinformatics analysis, we greatly expanded this pathway and identified many key regulators, including low-density-lipoprotein-receptor-related protein 1 (LRP1). We demonstrated that LRP1 mediates the ubiquitination chain linkage switching of Delta ligands, which further affects ligand recycling, membrane localization, and stability. LRP1 inhibition led to Notch signaling inhibition and decreased tumorigenesis in leukemia models. Our study provides a glimpse into the Notch pathway interaction network and uncovers LRP1 as one critical regulator of the Notch pathway, as well as a possible therapeutic target for Notch-related cancers.


Assuntos
Proliferação de Células/fisiologia , Lipoproteínas/metabolismo , Proteína-1 Relacionada a Receptor de Lipoproteína de Baixa Densidade/metabolismo , Transdução de Sinais/fisiologia , Animais , Diferenciação Celular/fisiologia , Células Cultivadas , Endocitose/fisiologia , Humanos , Ligantes , Lipoproteínas/genética , Proteína-1 Relacionada a Receptor de Lipoproteína de Baixa Densidade/genética , Camundongos
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