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ABSTRACT: During prion disease, cellular prion protein (PrPC) is refolded into a pathogenic isoform (PrPSc) that accumulates in the central nervous system and causes neurodegeneration and death. We used immunofluorescence, quantitative cryo-immunogold EM, and tomography to detect nascent, full-length PrPSc in the hippocampus of prion-infected mice from early preclinical disease stages onward. Comparison of uninfected and infected brains showed that sites containing full-length PrPSc could be recognized in the neuropil by bright spots and streaks of immunofluorescence on semi-thin (200-nm) sections, and by clusters of cryo-immunogold EM labeling. PrPSc was found mainly on neuronal plasma membranes, most strikingly on membrane invaginations and sites of cell-to-cell contact, and was evident by 65 days postinoculation, or 54% of the incubation period to terminal disease. Both axons and dendrites in the neuropil were affected. We hypothesize that closely apposed plasma membranes provide a favorable environment for prion conversion and intercellular prion transfer. Only a small proportion of clustered PrP immunogold labeling was found at synapses, indicating that synapses are not targeted specifically in prion disease.
Neurobiology of aging 06/2013; 34(6):1621-1631. · 5.94 Impact Factor
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Wim de Lau,
Nick Barker,
Teck Y Low,
Bon-Kyoung Koo,
Vivian S W Li,
Hans Teunissen,
Pekka Kujala,
Andrea Haegebarth, Peter J Peters,
Marc van de Wetering,
Daniel E Stange,
Johan E van Es,
Daniele Guardavaccaro,
Richard B M Schasfoort,
Yasuaki Mohri,
Katsuhiko Nishimori,
Shabaz Mohammed,
Albert J R Heck,
Hans Clevers
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Wim de Lau,
Nick Barker,
Teck Y Low,
Bon-Kyoung Koo,
Vivian S W Li,
Hans Teunissen,
Pekka Kujala,
Andrea Haegebarth, Peter J Peters,
Marc van de Wetering,
Daniel E Stange,
Johan E van Es,
Daniele Guardavaccaro,
Richard B M Schasfoort,
Yasuaki Mohri,
Katsuhiko Nishimori,
Shabaz Mohammed,
Albert J R Heck,
Hans Clevers
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Wim de Lau,
Pekka Kujala,
Kerstin Schneeberger,
Sabine Middendorp,
Vivian S W Li,
Nick Barker,
Anton Martens,
Frans Hofhuis,
Rodney P DeKoter, Peter J Peters,
Edward Nieuwenhuis,
Hans Clevers
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ABSTRACT: Peyer's patches consist of domains of specialized intestinal epithelium overlying gut-associated lymphoid tissue (GALT). Luminal antigens reach the GALT by translocation through epithelial gatekeeper cells, the so-called M cells. We recently demonstrated that all epithelial cells required for the digestive functions of the intestine are generated from Lgr5-expressing stem cells. Here, we show that M cells also derive from these crypt-based Lgr5 stem cells. The Ets family transcription factor SpiB, known to control effector functions of bone marrow-derived immune cells, is specifically expressed in M cells. In SpiB(-/-) mice, M cells are entirely absent, which occurs in a cell-autonomous fashion. It has been shown that Tnfsf11 (RankL) can induce M cell development in vivo. We show that in intestinal organoid ("minigut") cultures, stimulation with RankL induces SpiB expression within 24 h and expression of other M cell markers subsequently. We conclude that RankL-induced expression of SpiB is essential for Lgr5 stem cell-derived epithelial precursors to develop into M cells.
Molecular and cellular biology 07/2012; 32(18):3639-47. · 6.06 Impact Factor
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Diane Houben,
Caroline Demangel,
Jakko van Ingen,
Jorge Perez,
Lucy Baldeón,
Abdallah M Abdallah,
Laxmee Caleechurn,
Daria Bottai,
Maaike van Zon,
Karin de Punder,
Tridia van der Laan,
Arie Kant,
Ruth Bossers-de Vries,
Peter Willemsen,
Wilbert Bitter,
Dick van Soolingen,
Roland Brosch,
Nicole van der Wel, Peter J Peters
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ABSTRACT: Mycobacterium species, including Mycobacterium tuberculosis and Mycobacterium leprae, are among the most potent human bacterial pathogens. The discovery of cytosolic mycobacteria challenged the paradigm that these pathogens exclusively localize within the phagosome of host cells. As yet the biological relevance of mycobacterial translocation to the cytosol remained unclear. In this current study we used electron microscopy techniques to establish a clear link between translocation and mycobacterial virulence. Pathogenic, patient-derived mycobacteria species were found to translocate to the cytosol, while non-pathogenic species did not. We were further able to link cytosolic translocation with pathogenicity by introducing the ESX-1 (type VII) secretion system into the non-virulent, exclusively phagolysosomal Mycobacterium bovis BCG. Furthermore, we show that translocation is dependent on the C-terminus of the early-secreted antigen ESAT-6. The C-terminal truncation of ESAT-6 was shown to result in attenuation in mice, again linking translocation to virulence. Together, these data demonstrate the molecular mechanism facilitating translocation of mycobacteria. The ability to translocate from the phagolysosome to the cytosol is with this study proven to be biologically significant as it determines mycobacterial virulence.
Cellular Microbiology 04/2012; 14(8):1287-98. · 5.46 Impact Factor
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ABSTRACT: After oral exposure, prions are thought to enter Peyer's patches via M cells and accumulate first upon follicular dendritic cells (FDCs) before spreading to the nervous system. How prions are actually initially acquired from the gut lumen is not known. Using high-resolution immunofluorescence and cryo-immunogold electron microscopy, we report the trafficking of the prion protein (PrP) toward Peyer's patches of wild-type and PrP-deficient mice. PrP was transiently detectable at 1 day post feeding (dpf) within large multivesicular LAMP1-positive endosomes of enterocytes in the follicle-associated epithelium (FAE) and at much lower levels within M cells. Subsequently, PrP was detected on vesicles in the late endosomal compartments of macrophages in the subepithelial dome. At 7-21 dpf, increased PrP labelling was observed on the plasma membranes of FDCs in germinal centres of Peyer's patches from wild-type mice only, identifying FDCs as the first sites of PrP conversion and replication. Detection of PrP on extracellular vesicles displaying FAE enterocyte-derived A33 protein implied transport towards FDCs in association with FAE-derived vesicles. By 21 dpf, PrP was observed on the plasma membranes of neurons within neighbouring myenteric plexi. Together, these data identify a novel potential M cell-independent mechanism for prion transport, mediated by FAE enterocytes, which acts to initiate conversion and replication upon FDCs and subsequent infection of enteric nerves.
PLoS Pathogens 12/2011; 7(12):e1002449. · 9.13 Impact Factor
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Abdallah M Abdallah,
Jovanka Bestebroer,
Nigel D L Savage,
Karin de Punder,
Maaike van Zon,
Louis Wilson,
Cees J Korbee,
Astrid M van der Sar,
Tom H M Ottenhoff,
Nicole N van der Wel,
Wilbert Bitter, Peter J Peters
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ABSTRACT: During infection of humans and animals, pathogenic mycobacteria manipulate the host cell causing severe diseases such as tuberculosis and leprosy. To understand the basis of mycobacterial pathogenicity, it is crucial to identify the molecular virulence mechanisms. In this study, we address the contribution of ESX-1 and ESX-5--two homologous type VII secretion systems of mycobacteria that secrete distinct sets of immune modulators--during the macrophage infection cycle. Using wild-type, ESX-1- and ESX-5-deficient mycobacterial strains, we demonstrate that these secretion systems differentially affect subcellular localization and macrophage cell responses. We show that in contrast to ESX-1, the effector proteins secreted by ESX-5 are not required for the translocation of Mycobacterium tuberculosis or Mycobacterium marinum to the cytosol of host cells. However, the M. marinum ESX-5 mutant does not induce inflammasome activation and IL-1β activation. The ESX-5 system also induces a caspase-independent cell death after translocation has taken place. Importantly, by means of inhibitory agents and small interfering RNA experiments, we reveal that cathepsin B is involved in both the induction of cell death and inflammasome activation upon infection with wild-type mycobacteria. These results reveal distinct roles for two different type VII secretion systems during infection and shed light on how virulent mycobacteria manipulate the host cell in various ways to replicate and spread.
The Journal of Immunology 09/2011; 187(9):4744-53. · 5.79 Impact Factor
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Wim de Lau,
Nick Barker,
Teck Y Low,
Bon-Kyoung Koo,
Vivian S W Li,
Hans Teunissen,
Pekka Kujala,
Andrea Haegebarth, Peter J Peters,
Marc van de Wetering,
Daniel E Stange,
Johan E van Es,
Daniele Guardavaccaro,
Richard B M Schasfoort,
Yasuaki Mohri,
Katsuhiko Nishimori,
Shabaz Mohammed,
Albert J R Heck,
Hans Clevers
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ABSTRACT: The adult stem cell marker Lgr5 and its relative Lgr4 are often co-expressed in Wnt-driven proliferative compartments. We find that conditional deletion of both genes in the mouse gut impairs Wnt target gene expression and results in the rapid demise of intestinal crypts, thus phenocopying Wnt pathway inhibition. Mass spectrometry demonstrates that Lgr4 and Lgr5 associate with the Frizzled/Lrp Wnt receptor complex. Each of the four R-spondins, secreted Wnt pathway agonists, can bind to Lgr4, -5 and -6. In HEK293 cells, RSPO1 enhances canonical WNT signals initiated by WNT3A. Removal of LGR4 does not affect WNT3A signalling, but abrogates the RSPO1-mediated signal enhancement, a phenomenon rescued by re-expression of LGR4, -5 or -6. Genetic deletion of Lgr4/5 in mouse intestinal crypt cultures phenocopies withdrawal of Rspo1 and can be rescued by Wnt pathway activation. Lgr5 homologues are facultative Wnt receptor components that mediate Wnt signal enhancement by soluble R-spondin proteins. These results will guide future studies towards the application of R-spondins for regenerative purposes of tissues expressing Lgr5 homologues.
Nature 08/2011; 476(7360):293-7. · 36.28 Impact Factor
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ABSTRACT: Autotransporters (ATs) of Gram-negative bacteria contain an N-proximal passenger domain that is transported to the extracellular milieu and a C-terminal β-domain that inserts into the outer membrane (OM) in a β-barrel conformation. This β-domain facilitates translocation of the passenger domain across the OM and has long been considered to be the translocation pore. However, available crystal structures of β-domains show that the β-barrel pore is too narrow for the observed transport of folded elements within the passenger domains. ATs have recently been shown to interact with the β-barrel assembly machinery. These findings questioned a direct involvement of the β-domain in passenger translocation and suggested that it may only target the passenger to the β-barrel assembly machinery pore. To address the function of the β-domain in more detail, we have replaced the β-domain of the Escherichia coli AT hemoglobin protease by β-domains originating from other OM proteins. Furthermore, we have modified the diameter of the β-domain pore. The mutant proteins were analyzed for their capacity to insert into the OM and for surface display of the passenger. Our results show that efficient passenger secretion requires a specific β-domain that not only functions as a targeting device but also is directly involved in the translocation of the passenger to the cell surface.
Journal of Molecular Biology 07/2011; 412(4):553-67. · 4.00 Impact Factor
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ABSTRACT: Cryo-ultramicrotomy can be used to obtain ultrathin cryo-sections from cryo-fixed or aldehyde-fixed cryo-protected vitreous biologic samples. For immuno-gold EM, cryo-sections are retrieved from the cryo-chamber on a droplet of a pick-up solution (paste-like and almost frozen) to which the sections attach. The sections are then placed on an EM specimen grid at room temperature. This procedure compromises the ultrastructure, resulting in folds, holes, and loss of the original material. In this paper we show the critical influence of humidity, stretching, and relief of compression during thawing of the sections. We show a new lift-up hinge device for semi-automated retrieval of cryo-sections that results in significantly improved section quality. This approach was also applied successfully to vitreous sections from high pressure frozen samples. An important advance is that these vitreous cryo-sections can now successfully be post-fixed and immunolabelled after thawing; this allows cryo-EM comparison with adjacent ribbons of sections still in the frozen hydrated state. These findings call for technical innovations aiming at automated cryo-ultramicrotomy in a fully controlled environment for improved localization of proteins within their 'close to native' cellular context and correlative electron cryo-tomography of consecutive ribbons of sections of one frozen hydrated sample.
Journal of Structural Biology 07/2011; 175(1):62-72. · 3.41 Impact Factor
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ABSTRACT: The type VII secretion system ESX-5 is a major pathway for export of PE and PPE proteins in pathogenic mycobacteria. These mycobacteria-specific protein families are characterized by conserved N-terminal domains of 100 and 180 amino acids, which contain the proline-glutamic acid (PE) and proline-proline-glutamic acid (PPE) motifs after which they are named. Here we investigated secretion of the triacylglycerol lipase LipY, which in fast-growing mycobacteria contains a signal sequence, but in slow-growing species appears to have replaced the signal peptide with a PE or PPE domain. Selected LipY homologues were expressed in wild-type Mycobacterium marinum and its corresponding ESX-5 mutant, and localization of the proteins was investigated by immunoblotting and electron microscopy. Our study shows that Mycobacterium tuberculosis PE-LipY (LipY(tub)) and M. marinum PPE-LipY (LipY(mar)) are both secreted to the bacterial surface in an ESX-5-dependent fashion. After transport, the PE/PPE domains are removed by proteolytic cleavage. In contrast, Mycobacterium gilvum LipY, which has a signal sequence, is not transported to the cell surface. Furthermore, we show that LipY(tub) and LipY(mar) require their respective PE and PPE domains for ESX-5-dependent secretion. The role of the PE domain in ESX-5 secretion was confirmed in a whole cell lipase assay, in which wild-type bacteria expressing full-length LipY(tub), but not LipY(tub) lacking its PE domain, were shown to hydrolyze extracellular lipids. In conclusion, both PE and PPE domains contain a signal required for secretion of LipY by the ESX-5 system, and these domains are proteolytically removed upon translocation.
Journal of Biological Chemistry 04/2011; 286(21):19024-34. · 4.77 Impact Factor
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ABSTRACT: Vitreous cryo-section-induced compression influences the interpretation and the reliability of electron microscopy images and tomographic reconstructions. Previous studies of this deformation have been focused at the cellular level where considerable compression occurs, yet the degree of possible intracellular macromolecular deformation has remained unclear. Here, electron cryo-tomographic reconstructions of vitreous cryo-sections show that 80S ribosomes, both intracellular and in an isolated state, appear able to resist section-induced compression. Our observations indicate that vitreous section-induced compression is non-uniform between whole cells that have been sectioned and their intracellular macromolecular complexes. We conclude that electron cryo-tomography of vitreous cryo-sections, in spite of section-induced compression, is a suitable technique for charting the structural organization of cellular nanomachines, such as ribosomes, in a cellular environment.
Journal of Structural Biology 02/2011; 173(2):345-9. · 3.41 Impact Factor
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ABSTRACT: A major objective of modern structural biology is to appreciate the cellular organization by elucidating the spatial arrangement of macromolecular complexes within a cell. Cryogenic sample preparation, combined with cryo-ultramicrotomy, enables large cells and pieces of biological tissues to be thinned for electron cryo-tomography, which provides a three-dimensional view of the biological sample. There are, however, limitations associated with the technique that must be realized, addressed and overcome for the procedure to become mainstream. Here, we provide perspectives on the continued advancements in cryogenic sample preparation for vitreous cryo-sectioning, image collection and post-image processing that have expanded the attainable information limit within the three-dimensional reconstructions of cells and pieces of biological tissues.
Journal of electron microscopy 01/2011; 60 Suppl 1:S93-100. · 1.31 Impact Factor
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Nick Barker,
Meritxell Huch,
Pekka Kujala,
Marc van de Wetering,
Hugo J Snippert,
Johan H van Es,
Toshiro Sato,
Daniel E Stange,
Harry Begthel,
Maaike van den Born,
Esther Danenberg,
Stieneke van den Brink,
Jeroen Korving,
Arie Abo, Peter J Peters,
Nick Wright,
Richard Poulsom,
Hans Clevers
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ABSTRACT: The study of gastric epithelial homeostasis and cancer has been hampered by the lack of stem cell markers and in vitro culture methods. The Wnt target gene Lgr5 marks stem cells in the small intestine, colon, and hair follicle. Here, we investigated Lgr5 expression in the stomach and assessed the stem cell potential of the Lgr5(+ve) cells by using in vivo lineage tracing. In neonatal stomach, Lgr5 was expressed at the base of prospective corpus and pyloric glands, whereas expression in the adult was predominantly restricted to the base of mature pyloric glands. Lineage tracing revealed these Lgr5(+ve) cells to be self-renewing, multipotent stem cells responsible for the long-term renewal of the gastric epithelium. With an in vitro culture system, single Lgr5(+ve) cells efficiently generated long-lived organoids resembling mature pyloric epithelium. The Lgr5 stem cell marker and culture method described here will be invaluable tools for accelerating research into gastric epithelial renewal, inflammation/infection, and cancer.
Cell stem cell 01/2010; 6(1):25-36. · 23.56 Impact Factor
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Musa Sani,
Edith N G Houben,
Jeroen Geurtsen,
Jason Pierson,
Karin de Punder,
Maaike van Zon,
Brigitte Wever,
Sander R Piersma,
Connie R Jiménez,
Mamadou Daffé,
Ben J Appelmelk,
Wilbert Bitter,
Nicole van der Wel, Peter J Peters
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ABSTRACT: The cell envelope of mycobacteria, a group of Gram positive bacteria, is composed of a plasma membrane and a Gram-negative-like outer membrane containing mycolic acids. In addition, the surface of the mycobacteria is coated with an ill-characterized layer of extractable, non-covalently linked glycans, lipids and proteins, collectively known as the capsule, whose occurrence is a matter of debate. By using plunge freezing cryo-electron microscopy technique, we were able to show that pathogenic mycobacteria produce a thick capsule, only present when the cells were grown under unperturbed conditions and easily removed by mild detergents. This detergent-labile capsule layer contains arabinomannan, alpha-glucan and oligomannosyl-capped glycolipids. Further immunogenic and proteomic analyses revealed that Mycobacterium marinum capsule contains high amounts of proteins that are secreted via the ESX-1 pathway. Finally, cell infection experiments demonstrated the importance of the capsule for binding to cells and dampening of pro-inflammatory cytokine response. Together, these results show a direct visualization of the mycobacterial capsular layer as a labile structure that contains ESX-1-secreted proteins.
PLoS Pathogens 01/2010; 6(3):e1000794. · 9.13 Impact Factor
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ABSTRACT: CD8(+) T cells are activated upon presentation of antigens from the cytosol. Therefore, it was unclear how pathogenic mycobacteria could prime this type of lymphocyte, given that these microbes were thought to remain in phagosomes and, hence, be shielded from the host cytosol. Recently, it was shown that some mycobacteria can enter the cytosol through translocation from phagolysosomes, providing a direct mechanism for CD8(+) T cell priming. However, this mechanism might not apply to other mycobacteria, which do not appear to be able to enter the cytosol. Here, we discuss the different hypotheses to explain the induction of CD8(+) T cell responses in mycobacterial infections.
Trends in Microbiology 12/2009; 18(1):1-10. · 7.91 Impact Factor
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ABSTRACT: Cryo-electron tomography of vitreous cryo-sections is the most suitable method for exploring the 3D organization of biological samples that are too large to be imaged in an intact state. Producing good quality vitreous cryo-sections, however, is challenging. Here, we focused on the major obstacles to success: contamination in and around the microtome, and attachment of the ribbon of sections to an electron microscopic grid support film. The conventional method for attaching sections to the grid has involved mechanical force generated by a crude stamping or pressing device, but this disrupts the integrity of vitreous cryo-sections. Furthermore, attachment is poor, and parts of the ribbon of sections are often far from the support film. This results in specimen instability during image acquisition and subsequent difficulty with aligning projection images. Here, we have implemented a protective glove box surrounding the cryo-ultramicrotome that reduces the humidity around and within the microtome during sectioning. We also introduce a novel way to attach vitreous cryo-sections to an EM grid support film using electrostatic charging. The ribbon of vitreous cryo-sections remains in place during transfer and storage and is devoid of stamping related artefacts. We illustrate these improvements by exploring the structure of putative cellular 80S ribosomes within 50nm, vitreous cryo-sections of Saccharomyces cerevisiae.
Journal of Structural Biology 10/2009; 169(2):219-25. · 3.41 Impact Factor
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ABSTRACT: Stem cells within the intestinal epithelium generate daughter cells that undergo lineage commitment and maturation through the combined action of the Wnt and Notch signaling cascades. Both pathways, in turn, regulate transcription factor networks that further define differentiation toward either enterocytes or 1 of 3 secretory cell lineages (Paneth, goblet, or enteroendocrine cells). In this study, we investigated the role of the Wnt-responsive, Ets-domain transcription factor Spdef in the differentiation of goblet and Paneth cells.
The in vivo function of Spdef was examined by disrupting the Spdef gene in mice (Spdef(-/-) mice) and analyzing the intestinal phenotype using a range of histologic techniques and DNA microarray profiling.
In accordance with expression data, we found that loss of Spdef severely impaired the maturation of goblet and Paneth cells and, conversely, led to an accumulation of immature secretory progenitors. Spdef appears to positively and negatively regulate a specific subset of goblet and Paneth cell genes, including Cryptdins, Mmp7, Ang4, Kallikreins, and Muc2.
Spdef acts downstream of Math1 to promote terminal differentiation of a secretory progenitor pool into Paneth and goblet cells.
Gastroenterology 06/2009; 137(4):1333-45.e1-3. · 11.68 Impact Factor
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Laurens G van der Flier,
Marielle E van Gijn,
Pantelis Hatzis,
Pekka Kujala,
Andrea Haegebarth,
Daniel E Stange,
Harry Begthel,
Maaike van den Born,
Victor Guryev,
Irma Oving,
Johan H van Es,
Nick Barker, Peter J Peters,
Marc van de Wetering,
Hans Clevers
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ABSTRACT: The small intestinal epithelium is the most rapidly self-renewing tissue of mammals. Proliferative cells are confined to crypts, while differentiated cell types predominantly occupy the villi. We recently demonstrated the existence of a long-lived pool of cycling stem cells defined by Lgr5 expression and intermingled with post-mitotic Paneth cells at crypt bottoms. We have now determined a gene signature for these Lgr5 stem cells. One of the genes within this stem cell signature is the Wnt target Achaete scute-like 2 (Ascl2). Transgenic expression of the Ascl2 transcription factor throughout the intestinal epithelium induces crypt hyperplasia and ectopic crypts on villi. Induced deletion of the Ascl2 gene in adult small intestine leads to disappearance of the Lgr5 stem cells within days. The combined results from these gain- and loss-of-function experiments imply that Ascl2 controls intestinal stem cell fate.
Cell 04/2009; 136(5):903-12. · 32.40 Impact Factor
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Toshiro Sato,
Robert G Vries,
Hugo J Snippert,
Marc van de Wetering,
Nick Barker,
Daniel E Stange,
Johan H van Es,
Arie Abo,
Pekka Kujala, Peter J Peters,
Hans Clevers
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ABSTRACT: The intestinal epithelium is the most rapidly self-renewing tissue in adult mammals. We have recently demonstrated the presence of about six cycling Lgr5(+) stem cells at the bottoms of small-intestinal crypts. Here we describe the establishment of long-term culture conditions under which single crypts undergo multiple crypt fission events, while simultanously generating villus-like epithelial domains in which all differentiated cell types are present. Single sorted Lgr5(+) stem cells can also initiate these cryptvillus organoids. Tracing experiments indicate that the Lgr5(+) stem-cell hierarchy is maintained in organoids. We conclude that intestinal cryptvillus units are self-organizing structures, which can be built from a single stem cell in the absence of a non-epithelial cellular niche.
Nature 04/2009; 459(7244):262-5. · 36.28 Impact Factor
