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Neurog3-Independent Methylation Is the Earliest Detectable Mark Distinguishing Pancreatic Progenitor Identity.
Liu J, Banerjee A, Herring CA, Attalla J, Hu R, Xu Y, Shao Q, Simmons AJ, Dadi PK, Wang S, Jacobson DA, Liu B, Hodges E, Lau KS, Gu G
(2019) Dev Cell 48: 49-63.e7
MeSH Terms: Animals, Basic Helix-Loop-Helix Transcription Factors, Cell Differentiation, Cell Lineage, Endocrine Cells, Homeodomain Proteins, Insulin-Secreting Cells, Islets of Langerhans, Mice, Nerve Tissue Proteins, Organogenesis, Pancreas, Transcription Factors
Show Abstract · Added February 6, 2019
In the developing pancreas, transient Neurog3-expressing progenitors give rise to four major islet cell types: α, β, δ, and γ; when and how the Neurog3 cells choose cell fate is unknown. Using single-cell RNA-seq, trajectory analysis, and combinatorial lineage tracing, we showed here that the Neurog3 cells co-expressing Myt1 (i.e., Myt1Neurog3) were biased toward β cell fate, while those not simultaneously expressing Myt1 (Myt1Neurog3) favored α fate. Myt1 manipulation only marginally affected α versus β cell specification, suggesting Myt1 as a marker but not determinant for islet-cell-type specification. The Myt1Neurog3 cells displayed higher Dnmt1 expression and enhancer methylation at Arx, an α-fate-promoting gene. Inhibiting Dnmts in pancreatic progenitors promoted α cell specification, while Dnmt1 overexpression or Arx enhancer hypermethylation favored β cell production. Moreover, the pancreatic progenitors contained distinct Arx enhancer methylation states without transcriptionally definable sub-populations, a phenotype independent of Neurog3 activity. These data suggest that Neurog3-independent methylation on fate-determining gene enhancers specifies distinct endocrine-cell programs.
Published by Elsevier Inc.
1 Communities
1 Members
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13 MeSH Terms
Pancreas Volume Declines During the First Year After Diagnosis of Type 1 Diabetes and Exhibits Altered Diffusion at Disease Onset.
Virostko J, Williams J, Hilmes M, Bowman C, Wright JJ, Du L, Kang H, Russell WE, Powers AC, Moore DJ
(2019) Diabetes Care 42: 248-257
MeSH Terms: Adolescent, Adult, Atrophy, Autoantibodies, Case-Control Studies, Child, Child, Preschool, Cohort Studies, Diabetes Mellitus, Type 1, Female, Glucose Tolerance Test, Humans, Magnetic Resonance Imaging, Male, Middle Aged, Organ Size, Pancreas, Time Factors, Young Adult
Show Abstract · Added December 18, 2018
OBJECTIVE - This study investigated the temporal dynamics of pancreas volume and microstructure in children and adolescents with recent-onset type 1 diabetes (T1D) and individuals without diabetes, including a subset expressing autoantibodies associated with the early stages of T1D.
RESEARCH DESIGN AND METHODS - MRI was performed in individuals with recent-onset stage 3 T1D ( = 51; median age 13 years) within 100 days after diagnosis (mean 67 days), 6 months, and 1 year postdiagnosis. Longitudinal MRI measurements were also made in similarly aged control participants ( = 57) and in autoantibody-positive individuals without diabetes ( = 20). The MRI protocol consisted of anatomical imaging to determine pancreas volume and quantitative MRI protocols interrogating tissue microstructure and composition.
RESULTS - Within 100 days of diabetes onset, individuals with T1D had a smaller pancreas (median volume 28.6 mL) than control participants (median volume 48.4 mL; < 0.001), including when normalized by individual weight ( < 0.001). Longitudinal measurements of pancreas volume increased in control participants over the year, consistent with adolescent growth, but pancreas volume declined over the first year after T1D diagnosis ( < 0.001). In multiple autoantibody-positive individuals, the pancreas volume was significantly larger than that of the T1D cohort ( = 0.017) but smaller than that of the control cohort ( = 0.04). Diffusion-weighted MRI showed that individuals with recent-onset T1D had a higher apparent diffusion coefficient ( = 0.012), suggesting a loss of cellular structural integrity, with heterogeneous pancreatic distribution.
CONCLUSIONS - These results indicate that pancreas volume is decreased in stages 1, 2, and 3 of T1D and decreases during the first year after diabetes onset and that this loss of pancreatic volume is accompanied by microstructural changes.
© 2018 by the American Diabetes Association.
1 Communities
3 Members
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19 MeSH Terms
ROCK-nmMyoII, Notch and gene-dosage link epithelial morphogenesis with cell fate in the pancreatic endocrine-progenitor niche.
Bankaitis ED, Bechard ME, Gu G, Magnuson MA, Wright CVE
(2018) Development 145:
MeSH Terms: Animals, Basic Helix-Loop-Helix Transcription Factors, Cell Differentiation, Cell Movement, Endocrine Cells, Gene Dosage, Mice, Mice, Transgenic, Nerve Tissue Proteins, Organogenesis, Pancreas, Receptors, Notch, Stem Cells, Transcriptional Activation, rho-Associated Kinases
Show Abstract · Added August 24, 2018
During mouse pancreas organogenesis, endocrine cells are born from progenitors residing in an epithelial plexus niche. After a period in a lineage-primed state, progenitors become endocrine committed via upregulation of We find that the to transition is associated with distinct stages of an epithelial egression process: narrowing the apical surface of the cell, basalward cell movement and eventual cell-rear detachment from the apical lumen surface to allow clustering as nascent islets under the basement membrane. Apical narrowing, basalward movement and transcriptional upregulation still occur without Neurog3 protein, suggesting that morphogenetic cues deployed within the plexus initiate endocrine commitment upstream or independently of Neurog3. Neurog3 is required for cell-rear detachment and complete endocrine-cell birth. The ROCK-nmMyoII pathway coordinates epithelial-cell morphogenesis and the progression through -expressing states. NmMyoII is necessary for apical narrowing, basalward cell displacement and upregulation, but all three are limited by ROCK activity. We propose that ROCK-nmMyoII activity, gene-dose and Notch signaling integrate endocrine fate allocation with epithelial plexus growth and morphogenesis, representing a feedback control circuit that coordinates morphogenesis with lineage diversification in the endocrine-birth niche.
© 2018. Published by The Company of Biologists Ltd.
2 Communities
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15 MeSH Terms
Stochastic priming and spatial cues orchestrate heterogeneous clonal contribution to mouse pancreas organogenesis.
Larsen HL, Martín-Coll L, Nielsen AV, Wright CVE, Trusina A, Kim YH, Grapin-Botton A
(2017) Nat Commun 8: 605
MeSH Terms: Acinar Cells, Animals, Cell Differentiation, Cell Lineage, Cell Proliferation, Computer Simulation, Gene Expression Profiling, Mice, Organogenesis, Pancreas, Single-Cell Analysis
Show Abstract · Added October 3, 2017
Spatiotemporal balancing of cellular proliferation and differentiation is crucial for postnatal tissue homoeostasis and organogenesis. During embryonic development, pancreatic progenitors simultaneously proliferate and differentiate into the endocrine, ductal and acinar lineages. Using in vivo clonal analysis in the founder population of the pancreas here we reveal highly heterogeneous contribution of single progenitors to organ formation. While some progenitors are bona fide multipotent and contribute progeny to all major pancreatic cell lineages, we also identify numerous unipotent endocrine and ducto-endocrine bipotent clones. Single-cell transcriptional profiling at E9.5 reveals that endocrine-committed cells are molecularly distinct, whereas multipotent and bipotent progenitors do not exhibit different expression profiles. Clone size and composition support a probabilistic model of cell fate allocation and in silico simulations predict a transient wave of acinar differentiation around E11.5, while endocrine differentiation is proportionally decreased. Increased proliferative capacity of outer progenitors is further proposed to impact clonal expansion.
2 Communities
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11 MeSH Terms
Mouse pancreatic islet macrophages use locally released ATP to monitor beta cell activity.
Weitz JR, Makhmutova M, Almaça J, Stertmann J, Aamodt K, Brissova M, Speier S, Rodriguez-Diaz R, Caicedo A
(2018) Diabetologia 61: 182-192
MeSH Terms: Adenosine Triphosphate, Animals, Insulin, Insulin-Secreting Cells, Islets of Langerhans, Macrophages, Mice, Pancreas
Show Abstract · Added March 21, 2018
AIMS/HYPOTHESIS - Tissue-resident macrophages sense the microenvironment and respond by producing signals that act locally to maintain a stable tissue state. It is now known that pancreatic islets contain their own unique resident macrophages, which have been shown to promote proliferation of the insulin-secreting beta cell. However, it is unclear how beta cells communicate with islet-resident macrophages. Here we hypothesised that islet macrophages sense changes in islet activity by detecting signals derived from beta cells.
METHODS - To investigate how islet-resident macrophages respond to cues from the microenvironment, we generated mice expressing a genetically encoded Ca indicator in myeloid cells. We produced living pancreatic slices from these mice and used them to monitor macrophage responses to stimulation of acinar, neural and endocrine cells.
RESULTS - Islet-resident macrophages expressed functional purinergic receptors, making them exquisite sensors of interstitial ATP levels. Indeed, islet-resident macrophages responded selectively to ATP released locally from beta cells that were physiologically activated with high levels of glucose. Because ATP is co-released with insulin and is exclusively secreted by beta cells, the activation of purinergic receptors on resident macrophages facilitates their awareness of beta cell secretory activity.
CONCLUSIONS/INTERPRETATION - Our results indicate that islet macrophages detect ATP as a proxy signal for the activation state of beta cells. Sensing beta cell activity may allow macrophages to adjust the secretion of factors to promote a stable islet composition and size.
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1 Members
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8 MeSH Terms
Glycoprotein 2 is a specific cell surface marker of human pancreatic progenitors.
Cogger KF, Sinha A, Sarangi F, McGaugh EC, Saunders D, Dorrell C, Mejia-Guerrero S, Aghazadeh Y, Rourke JL, Screaton RA, Grompe M, Streeter PR, Powers AC, Brissova M, Kislinger T, Nostro MC
(2017) Nat Commun 8: 331
MeSH Terms: Biomarkers, Tumor, Cell Differentiation, Cell Membrane, Cells, Cultured, GPI-Linked Proteins, Homeodomain Proteins, Humans, Insulin-Secreting Cells, Mass Spectrometry, Pancreas, Pluripotent Stem Cells, Proteomics, Stem Cells, Trans-Activators, Transcription Factors
Show Abstract · Added March 21, 2018
PDX1/NKX6-1 pancreatic progenitors (PPs) give rise to endocrine cells both in vitro and in vivo. This cell population can be successfully differentiated from human pluripotent stem cells (hPSCs) and hold the potential to generate an unlimited supply of β cells for diabetes treatment. However, the efficiency of PP generation in vitro is highly variable, negatively impacting reproducibility and validation of in vitro and in vivo studies, and consequently, translation to the clinic. Here, we report the use of a proteomics approach to phenotypically characterize hPSC-derived PPs and distinguish these cells from non-PP populations during differentiation. Our analysis identifies the pancreatic secretory granule membrane major glycoprotein 2 (GP2) as a PP-specific cell surface marker. Remarkably, GP2 is co-expressed with NKX6-1 and PTF1A in human developing pancreata, indicating that it marks the multipotent pancreatic progenitors in vivo. Finally, we show that isolated hPSC-derived GP2 cells generate β-like cells (C-PEPTIDE/NKX6-1) more efficiently compared to GP2 and unsorted populations, underlining the potential therapeutic applications of GP2.Pancreatic progenitors (PPs) can be derived from human pluripotent stem cells in vitro but efficiency of differentiation varies, making it hard to sort for insulin-producing cells. Here, the authors use a proteomic approach to identify the secretory granule membrane glycoprotein 2 as a marker for PDX1+/NKX6-1+ PPs.
0 Communities
1 Members
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15 MeSH Terms
Pathways to clinical CLARITY: volumetric analysis of irregular, soft, and heterogeneous tissues in development and disease.
Hsueh B, Burns VM, Pauerstein P, Holzem K, Ye L, Engberg K, Wang AC, Gu X, Chakravarthy H, Arda HE, Charville G, Vogel H, Efimov IR, Kim S, Deisseroth K
(2017) Sci Rep 7: 5899
MeSH Terms: Animals, Disease, Female, Humans, Hydrogels, Imaging, Three-Dimensional, Mice, Inbred C57BL, Neural Crest, Neurosecretory Systems, Organogenesis, Pancreas
Show Abstract · Added October 31, 2017
Three-dimensional tissue-structural relationships are not well captured by typical thin-section histology, posing challenges for the study of tissue physiology and pathology. Moreover, while recent progress has been made with intact methods for clearing, labeling, and imaging whole organs such as the mature brain, these approaches are generally unsuitable for soft, irregular, and heterogeneous tissues that account for the vast majority of clinical samples and biopsies. Here we develop a biphasic hydrogel methodology, which along with automated analysis, provides for high-throughput quantitative volumetric interrogation of spatially-irregular and friable tissue structures. We validate and apply this approach in the examination of a variety of developing and diseased tissues, with specific focus on the dynamics of normal and pathological pancreatic innervation and development, including in clinical samples. Quantitative advantages of the intact-tissue approach were demonstrated compared to conventional thin-section histology, pointing to broad applications in both research and clinical settings.
1 Communities
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11 MeSH Terms
c-Myc downregulation is required for preacinar to acinar maturation and pancreatic homeostasis.
Sánchez-Arévalo Lobo VJ, Fernández LC, Carrillo-de-Santa-Pau E, Richart L, Cobo I, Cendrowski J, Moreno U, Del Pozo N, Megías D, Bréant B, Wright CV, Magnuson M, Real FX
(2018) Gut 67: 707-718
MeSH Terms: Acinar Cells, Animals, Cell Differentiation, Disease Models, Animal, Down-Regulation, Homeostasis, Mice, Pancreas, Pancreatic Neoplasms, Proto-Oncogene Proteins c-myc, Transcription Factors
Show Abstract · Added February 7, 2017
BACKGROUND AND AIMS - c-Myc is highly expressed in pancreatic multipotent progenitor cells (MPC) and in pancreatic cancer. The transition from MPC to unipotent acinar progenitors is associated with c-Myc downregulation; a role for c-Myc in this process, and its possible relationship to a role in cancer, has not been established.
DESIGN - Using coimmunoprecipitation assays, we demonstrate that c-Myc and Ptf1a interact. Using reverse transcriptase qPCR, western blot and immunofluorescence, we show the erosion of the acinar programme. To analyse the genomic distribution of c-Myc and Ptf1a and the global transcriptomic profile, we used ChIP-seq and RNA-seq, respectively; validation was performed with ChIP-qPCR and RT-qPCR. Lineage-tracing experiments were used to follow the effect of c-Myc overexpression in preacinar cells on acinar differentiation.
RESULTS - c-Myc binds and represses the transcriptional activity of Ptf1a c-Myc overexpression in preacinar cells leads to a massive erosion of differentiation. In adult mice: (1) c-Myc binds to Ptf1a, and Tcf3 is downregulated; (2) Ptf1a and c-Myc display partially overlapping chromatin occupancy but do not bind the same E-boxes; (3) at the proximal promoter of genes coding for digestive enzymes, we find reduced PTF1 binding and increased levels of repressive chromatin marks and PRC2 complex components. Lineage tracing of committed acinar precursors reveals that c-Myc overexpression does not restore multipotency but allows the persistence of a preacinar-like cell population. In addition, mutant KRas can lead to c-Myc overexpression and acinar dysregulation.
CONCLUSIONS - c-Myc repression during development is crucial for the maturation of preacinar cells, and c-Myc overexpression can contribute to pancreatic carcinogenesis through the induction of a dedifferentiated state.
Published by the BMJ Publishing Group Limited. For permission to use (where not already granted under a licence) please go to http://www.bmj.com/company/products-services/rights-and-licensing/.
1 Communities
2 Members
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11 MeSH Terms
Effects of deletion on body weight and cholesterol in mice.
Boortz KA, Syring KE, Pound LD, Mo H, Bastarache L, Oeser JK, McGuinness OP, Denny JC, O'Brien RM
(2017) J Mol Endocrinol 58: 127-139
MeSH Terms: Animals, Blood Glucose, Body Weight, Cholesterol, Diet, High-Fat, Fasting, Female, Gene Deletion, Gene Expression, Genetic Association Studies, Genetic Background, Glucose Tolerance Test, Glucose-6-Phosphatase, Insulin, Male, Mice, Mice, 129 Strain, Mice, Inbred C57BL, Mice, Knockout, Pancreas, Polymorphism, Single Nucleotide
Show Abstract · Added March 14, 2018
Genome-wide association study (GWAS) data have linked the gene to variations in fasting blood glucose (FBG). encodes an islet-specific glucose-6-phosphatase catalytic subunit that forms a substrate cycle with the beta cell glucose sensor glucokinase. This cycle modulates the glucose sensitivity of insulin secretion and hence FBG. GWAS data have not linked to variations in body weight but we previously reported that female C57BL/6J -knockout (KO) mice were lighter than wild-type littermates on both a chow and high-fat diet. The purpose of this study was to compare the effects of deletion on FBG and body weight in both chow-fed and high-fat-fed mice on two other genetic backgrounds. FBG was reduced in KO mice largely independent of gender, genetic background or diet. In contrast, the effect of deletion on body weight was markedly influenced by these variables. Deletion of conferred a marked protection against diet-induced obesity in male mixed genetic background mice, whereas in 129SvEv mice deletion of had no effect on body weight. deletion also reduced plasma cholesterol levels in a manner dependent on gender, genetic background and diet. An association between and plasma cholesterol was also observed in humans through electronic health record-derived phenotype analyses. These observations suggest that the action of G6PC2 on FBG is largely independent of the influences of environment, modifier genes or epigenetic events, whereas the action of G6PC2 on body weight and cholesterol are influenced by unknown variables.
© 2017 Society for Endocrinology.
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2 Members
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21 MeSH Terms
New ideas connecting the cell cycle and pancreatic endocrine-lineage specification.
Bechard ME, Wright CV
(2017) Cell Cycle 16: 301-303
MeSH Terms: Animals, Cell Cycle, Cell Lineage, Endocrine System, Humans, Models, Biological, Pancreas
Added December 6, 2016
1 Communities
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7 MeSH Terms