Justine Creff scite author profile

Native human subcutaneous adipose tissue (AT) is well organized into unilocular adipocytes interspersed within dense vascularization. This structure is completely lost under standard culture conditions and may impair the comparison with native tissue. Here, we developed a 3-D model of human white AT reminiscent of the cellular architecture found in vivo . Starting with adipose progenitors derived from the stromal-vascular fraction of human subcutaneous white AT, we generated spheroids in which endogenous endothelial cells self-assembled to form highly organized endothelial networks among stromal cells. Using an optimized adipogenic differentiation medium to preserve endothelial cells, we obtained densely vascularized spheroids containing mature adipocytes with unilocular lipid vacuoles. In vivo study showed that when differentiated spheroids were transplanted in immune-deficient mice, endothelial cells within the spheroids connected to the recipient circulatory system, forming chimeric vessels. In addition, adipocytes of human origin were still observed in transplanted mice. We therefore have developed an in vitro model of vascularized human AT-like organoids that constitute an excellent tool and model for any study of human AT.

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Fabrication of 3D scaffolds reproducing intestinal epithelium topography by high-resolution 3D stereolithography

Creff

et al. 2019

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p27 controls Ragulator and mTOR activity in amino acid-deprived cells to regulate the autophagy–lysosomal pathway and coordinate cell cycle and cell growth

Nowosad¹,

Jeannot²,

Callot³

et al. 2020

Nat Cell Biol

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Functional Versatility of the CDK Inhibitor p57Kip2

Creff

Besson

2020

Front. Cell Dev. Biol.

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The cyclin/CDK inhibitor p57 Kip2 belongs to the Cip/Kip family, with p21 Cip1 and p27 Kip1 , and is the least studied member of the family. Unlike the other family members, p57 Kip2 has a unique role during embryogenesis and is the only CDK inhibitor required for embryonic development. p57 Kip2 is encoded by the imprinted gene CDKN1C, which is the gene most frequently silenced or mutated in the genetic disorder Beckwith-Wiedemann syndrome (BWS), characterized by multiple developmental anomalies. Although initially identified as a cell cycle inhibitor based on its homology to other Cip/Kip family proteins, multiple novel functions have been ascribed to p57 Kip2 in recent years that participate in the control of various cellular processes, including apoptosis, migration and transcription. Here, we will review our current knowledge on p57 Kip2 structure, regulation, and its diverse functions during development and homeostasis, as well as its potential implication in the development of various pathologies, including cancer.

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In vitro models of intestinal epithelium: Toward bioengineered systems

2021

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The intestinal epithelium, the fastest renewing tissue in human, is a complex tissue hosting multiple cell types with a dynamic and multiparametric microenvironment, making it particularly challenging to recreate in vitro. Convergence of recent advances in cellular biology and microfabrication technologies have led to the development of various bioengineered systems to model and study the intestinal epithelium. Theses microfabricated in vitro models may constitute an alternative to current approaches for studying the fundamental mechanisms governing intestinal homeostasis and pathologies, as well as for in vitro drug screening and testing. Herein, we review the recent advances in bioengineered in vitro intestinal models.

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p27 controls autophagic vesicle trafficking in glucose-deprived cells via the regulation of ATAT1-mediated microtubule acetylation

et al. 2021

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The cyclin-dependent kinase inhibitor p27Kip1 (p27) has been involved in promoting autophagy and survival in conditions of metabolic stress. While the signaling cascade upstream of p27 leading to its cytoplasmic localization and autophagy induction has been extensively studied, how p27 stimulates the autophagic process remains unclear. Here, we investigated the mechanism by which p27 promotes autophagy upon glucose deprivation. Mouse embryo fibroblasts (MEFs) lacking p27 exhibit a decreased autophagy flux compared to wild-type cells and this is correlated with an abnormal distribution of autophagosomes. Indeed, while autophagosomes are mainly located in the perinuclear area in wild-type cells, they are distributed throughout the cytoplasm in p27-null MEFs. Autophagosome trafficking towards the perinuclear area, where most lysosomes reside, is critical for autophagosome–lysosome fusion and cargo degradation. Vesicle trafficking is mediated by motor proteins, themselves recruited preferentially to acetylated microtubules, and autophagy flux is directly correlated to microtubule acetylation levels. p27−/− MEFs exhibit a marked reduction in microtubule acetylation levels and restoring microtubule acetylation in these cells, either by re-expressing p27 or with deacetylase inhibitors, restores perinuclear positioning of autophagosomes and autophagy flux. Finally, we find that p27 promotes microtubule acetylation by binding to and stabilizing α-tubulin acetyltransferase (ATAT1) in glucose-deprived cells. ATAT1 knockdown results in random distribution of autophagosomes in p27+/+ MEFs and impaired autophagy flux, similar to that observed in p27−/− cells. Overall, in response to glucose starvation, p27 promotes autophagy by facilitating autophagosome trafficking along microtubule tracks by maintaining elevated microtubule acetylation via an ATAT1-dependent mechanism.

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p27Kip1 regulates the microtubule bundling activity of PRC1

Perchey

Serres

Nowosad

et al. 2018

Biochimica et Biophysica Acta (BBA) - Molecular Cell Research

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Cytoplasmic p27^Kip1 promotes tumorigenesis via suppression of RhoB activity

Calvayrac

Nowosad

Cabantous

et al. 2018

The Journal of Pathology

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The cell cycle inhibitor p27 is a tumor suppressor via the inhibition of CDK complexes in the nucleus. However, p27 also plays other functions in the cell and may acquire oncogenic roles when located in the cytoplasm. Activation of oncogenic pathways such as Ras or PI3K/AKT causes the relocalization of p27 in the cytoplasm where it can promote tumorigenesis by unclear mechanisms. Here, we investigated how cytoplasmic p27 participates in the development of non-small cell lung carcinomas. We provide molecular and genetic evidence that the oncogenic role of p27 is mediated at least in part by binding to and inhibiting the GTPase RhoB, which normally acts as a tumor suppressor in the lung. Genetically modified mice revealed that RhoB expression is preferentially lost in tumors in which p27 is absent and maintained in tumors expressing wild-type p27 or p27 , a mutant that cannot inhibit CDKs. Moreover, while the absence of RhoB promoted tumorigenesis in p27 animals, it had no effect in p27 knock-in mice, suggesting that cytoplasmic p27 may act as an oncogene at least in part by inhibiting the activity of RhoB. Finally, in a cohort of lung cancer patients, we identified a subset of tumors harboring cytoplasmic p27 in which RhoB expression is maintained and these characteristics were strongly associated with decreased patient survival. Thus, monitoring p27 localization and RhoB levels in non-small cell lung carcinoma patients appears to be a powerful prognostic marker for these tumors.

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Justine Creff

Human adipose stromal-vascular fraction self-organizes to form vascularized adipose tissue in 3D cultures

Fabrication of 3D scaffolds reproducing intestinal epithelium topography by high-resolution 3D stereolithography

p27 controls Ragulator and mTOR activity in amino acid-deprived cells to regulate the autophagy–lysosomal pathway and coordinate cell cycle and cell growth

Functional Versatility of the CDK Inhibitor p57Kip2

In vitro models of intestinal epithelium: Toward bioengineered systems

p27 controls autophagic vesicle trafficking in glucose-deprived cells via the regulation of ATAT1-mediated microtubule acetylation

p27Kip1 regulates the microtubule bundling activity of PRC1

Cytoplasmic p27^Kip1 promotes tumorigenesis via suppression of RhoB activity

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Justine Creff

Human adipose stromal-vascular fraction self-organizes to form vascularized adipose tissue in 3D cultures

Fabrication of 3D scaffolds reproducing intestinal epithelium topography by high-resolution 3D stereolithography

p27 controls Ragulator and mTOR activity in amino acid-deprived cells to regulate the autophagy–lysosomal pathway and coordinate cell cycle and cell growth

Functional Versatility of the CDK Inhibitor p57Kip2

In vitro models of intestinal epithelium: Toward bioengineered systems

p27 controls autophagic vesicle trafficking in glucose-deprived cells via the regulation of ATAT1-mediated microtubule acetylation

p27Kip1 regulates the microtubule bundling activity of PRC1

Cytoplasmic p27Kip1 promotes tumorigenesis via suppression of RhoB activity

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Product

Resources

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Cytoplasmic p27^Kip1 promotes tumorigenesis via suppression of RhoB activity