45 results on '"Kuo, Calvin J"'
Search Results
2. Comparative evaluation of the antitumor activity of antiangiogenic proteins delivered by gene...
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Kuo, Calvin J., Farnebo, Filip, Yu, Evan Y., Christofferson, Rolf, Swearingen, Rebecca A., Carter, Robert, von Recum, Horst A., Yuan, Jenny, Kamihara, Junne, Flynn, Evelyn, D'Amato, Rovert, Folkman, Judah, and Mulligan, Richard C.
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ANTINEOPLASTIC agents , *GENETIC transformation , *CARCINOGENESIS - Abstract
Presents a comparative evaluation of the antitumor activity of antiangiogenic proteins delivered by gene transfer. Systemic inhibition of tumor growth by antiangiogenic adenoviruses; Correlation between the effects of viruses on tumor growth and activity of the viruses in the inhibition of corneal micrpocket angiogenesis.
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- 2001
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3. Oligomerization-dependent Regulation of Motility and Morphogenesis by the Collagen XVIII...
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Kuo, Calvin J., LaMontagne Jr., Kenneth R., Garcia-Cardena, Guillermo, Ackley, Brian D., Kalman, Daniel, Park, Susan, Christofferson, Rolf, Kamihara, Junne, Yuan-Hua Ding, Kin Ming Lo, Gillies, Stephen, Folkman, Judah, Mulligan, Richard C., and Javaherian, Kashi
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CELLULAR control mechanisms , *COLLAGEN , *CELL motility , *MORPHOGENESIS - Abstract
Focuses on the function of collagen XVIII (c18) noncollagenous (NC1)/endostatin (ES) domain as a motility-inducing factor regulating the extracellular matrix-dependent morphogenesis of endothelial and other cell types. ES domain oligomerization; Role of physiologic product ES monomer in blocking the protein kinase-simulating activities of c18 NC1.
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- 2001
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4. Organoid modeling for cancer precision medicine.
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Cantrell, Michael A. and Kuo, Calvin J.
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CANCER treatment , *GENOMES , *CANCER cells , *TISSUES - Abstract
The article presents the author's views on the use of cancer precision medicine for treating cancer. Topics discussed includes the Cancer Genome Atlas (TCGA), initiative taken by the U.S. government for promoting precision medicine, its validation and presence of cancer cells in the wild-type tissue organoids.
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- 2015
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5. Characterization of S6K2, a novel kinase homologous to S6K1.
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Lee-Fruman, Kay K, Kuo, Calvin J, Lippincott, John, Terada, Naohiro, and Blenis, John
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HOMOLOGY (Biology) , *PROTEIN kinases , *RAPAMYCIN - Abstract
Rapamycin is an immunosuppressant which antagonizes cellular proliferation by inhibiting the function of mTOR. The mTOR : FKBP12 : rapamycin complex blocks G1/S transition by inhibiting downstream targets essential for cell cycle progression. One such target is p70S6k1 (S6K1), a serine/threonine kinase which is inactivated by the mTOR : FKBP12 : rapamycin complex, and which has been linked to translational control by virtue of its ability to phosphorylate the ribosomal protein S6. In the current work, we describe cloning and characterization of a novel S6K1 homolog, p54 S6 kinase 2 (p54S6k2/S6K2). Similar to S6K1, S6K2 is activated by mitogens and by constitutively active PI3K, and is inhibited by rapamycin as well as wortmannin. Differences between activation of S6K1 and S6K2 by PDK1 were observed, suggesting potential differences in the regulation of these homologs. Strikingly, S6K2 activity and S6 phosphorylation were both intact in S6K1-/-ES cell, indicating a possible role for S6K2 in in vivo S6 phosphorylation. Interestingly, we found two isoforms of S6K2 which are localized to distinct cellular compartments; the smaller form resides in the detergent-soluble fraction, whereas the larger form is found in the particulate fraction. Our findings demonstrate the existence of a family of rapamycin-sensitive protein kinases potentially involved in S6 phosphorylation, translational control, and transduction of mTOR signals. [ABSTRACT FROM AUTHOR]
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- 1999
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6. Rapamycin selectively inhibits interleukin-2 activation of p70 S6 kinase.
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Kuo, Calvin J. and Chung, Jongkyeong
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MOLECULAR biology - Abstract
Shows that interleukin-2 selectively stimulates the phosphorylation and activation of p70 S6 kinase but not the erk-encoded MAP kinases and rsk-encoded S6 kinases. The macrolide rapamycin and its ability to induce cell cycle G1 arrest in yeast and mammalian cells; Details.
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- 1992
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7. PDGF-B exploits stromal EPO.
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McGinnis, Lisa M and Kuo, Calvin J
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ERYTHROPOIETIN , *PLATELET-derived growth factor , *CANCER invasiveness , *TUMOR growth , *LABORATORY mice - Abstract
The article presents a study on mice which shows the potential of platelet-derived growth factor-B (PDGF-B) to promote tumor growth. It states that the growth factor exerts double function following the induction of the erythropoietin (EPO) expression. The study shows that EPO production from the tumor stromal compartment plays an important role in tumor progression.
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- 2012
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8. Toward recreating colon cancer in human organoids.
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Salahudeen, Ameen A and Kuo, Calvin J
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COLON cancer diagnosis , *GENETIC mutation , *GENETIC engineering , *CARCINOMA , *CELL culture , *CULTURE media (Biology) - Abstract
The article discusses the significant of human organoids in colorectal cancer modeling discovered during the study on oncogenic mutations engineering. Topics discussed include the application of organoid culture method in colon modeling through culturing intestinal tissue or stem cells, the implication of the progression of the normal colon epithelial cell on colorectal carcinoma, and the conclusion which states the significant of human organoid in cancer modeling.
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- 2015
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9. Introduction to themed series on intestinal stem cells and the NIDDK Intestinal Stem Cell Consortium.
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Wang, Timothy C., Martin, Martin G., Kuo, Calvin J., Klein, Ophir D., and Niland, Joyce
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STEM cells , *PLURIPOTENT stem cells - Published
- 2019
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10. Wnt pathway regulation of intestinal stem cells.
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Mah, Amanda T., Yan, Kelley S., and Kuo, Calvin J.
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WNT signal transduction , *CELLULAR signal transduction , *INTESTINAL physiology , *STEM cell research , *EMBRYOLOGY - Abstract
Wnt signalling is involved in multiple aspects of embryonic development and adult tissue homeostasis, notably via controlling cellular proliferation and differentiation. Wnt signalling is subject to stringent positive and negative regulation to promote proper development and homeostasis yet avoid aberrant growth. Such multi-layer regulation includes post-translational modification and processing of Wnt proteins themselves, R-spondin (Rspo) amplification of Wnt signalling, diverse receptor families, and intracellular and extracellular antagonists and destruction and transcription complexes. In the gastrointestinal tract, Wnt signalling is crucial for development and renewal of the intestinal epithelium. Intestinal stem cells (ISCs) undergo symmetric division and neutral drift dynamics to renew the intestinal epithelium. Sources of Wnts and Wnt amplifers such as R-spondins are beginning to be elucidated as well as their functional contribution to intestinal homeostasis. In this review we focus on regulation of ISCs and intestinal homeostasis by the Wnt/Rspo pathway, the potential cellular sources of Wnt signalling regulators and highlight potential future areas of study. [ABSTRACT FROM AUTHOR]
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- 2016
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11. Recombinant adenovirus as a methodology for exploration of physiologic functions of growth factor pathways.
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Wei, Kevin, Kuhnert, Frank, and Kuo, Calvin J.
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ADENOVIRUSES , *RECOMBINANT viruses , *GROWTH factors , *PROTEINS , *BLOOD plasma - Abstract
The use of recombinant adenoviruses (Ad) to express secreted antagonists of growth factors represents a powerful strategy for studying physiologic functions of growth factor pathways in experimental animals. Indeed, a single adenoviral injection can produce characteristic high-level and persistent plasma expression of soluble receptor ectodomains or secreted protein antagonists, allowing highly stringent conditional inactivation of target pathways in vivo. In this review, we describe our experience using recombinant Ad to inactivate growth factor pathways in vivo and discuss their advantages and limitations. Using our studies on vascular endothelial growth factor and Wnt systems as examples, we further describe how recombinant Ad can unveil previously unknown physiological roles of signaling pathways. Finally, we discuss the potential physiological and therapeutic relevance of our findings. [ABSTRACT FROM AUTHOR]
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- 2008
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12. Cotargeting tumor and tumor endothelium effectively inhibits the growth of human prostate cancer in adenovirus-mediated antiangiogenesis and oncolysis combination therapy.
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Fengshuo Jin, Zhihui Xie, Kuo, Calvin J., Chung, Leland W. K., and Chia-Ling Hsieh
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PROSTATE cancer , *ADENOVIRUSES , *DNA viruses , *GENE therapy , *GENETIC engineering , *ENDOTHELIAL seeding , *TUMORS , *CANCER - Abstract
Tumor-endothelial interaction contributes to local prostate tumor growth and distant metastasis. In this communication, we designed a novel approach to target both cancer cells and their“crosstalk”with surrounding microvascular endothelium in an experimental hormone refractory human prostate cancer model. We evaluated the in vitro and in vivo synergistic and/or additive effects of a combination of conditional oncolytic adenovirus plus an adenoviral-mediated antiangiogenic therapy. In the in vitro study, we demonstrated that human umbilical vein endothelial cells (HUVEC) and human C4-2 androgen-independent (AI) prostate cancer cells, when infected with an antiangiogenic adenoviral (Ad)-Flk1-Fc vector secreting a soluble form of Flk1, showed dramatically inhibited proliferation, migration and tubular formation of HUVEC endothelial cells. C4-2 cells showed maximal growth inhibition when coinfected with Ad-Flk1-Fc and Ad-hOC-E1, a conditional replication-competent Ad vector with viral replication driven by a human osteocalcin (hOC) promoter targeting both prostate cancer epithelial and stromal cells. Using a three-dimensional (3D) coculture model, we found that targeting C4-2 cells with Ad-hOC-E1 markedly decreased tubular formation in HUVEC, as visualized by confocal microscopy. In a subcutaneous C4-2 tumor xenograft model, tumor volume was decreased by 40-60%in animals treated with Ad-Flk1-Fc or Ad-hOC-E1 plus vitamin D3 alone and by 90%in a combined treatment group, compared to untreated animals in an 8-week treatment period. Moreover, three of 10 (30%) pre-established tumors completely regressed when animals received combination therapy. Cotargeting tumor and tumor endothelium could be a promising gene therapy strategy for the treatment of both localized and metastatic human prostate cancer.Cancer Gene Therapy (2005) 12, 257-267. doi:10.1038/sj.cgt.7700790 Published online 26 November 2004 [ABSTRACT FROM AUTHOR]
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- 2005
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13. Nanoparticle-enabled innate immune stimulation activates endogenous tumor-infiltrating T cells with broad antigen specificities.
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Qian Yin, Wong Yu, Grzeskowiak, Caitlin L., Jing Li, Huang Huang, Jing Guo, Liang Chen, Feng Wang, Fan Zhao, von Boehmer, Lotta, Metzner, Thomas J., Leppert, John T., Chien, Yueh-hsiu, Kuo, Calvin J., and Davis, Mark M.
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REGULATORY T cells , *T cells , *LABORATORY mice , *IMMUNOLOGIC memory , *ANTIGENS , *TUMOR-infiltrating immune cells - Abstract
Tumors are often infiltrated by T lymphocytes recognizing either self- or mutated antigens but are generally inactive, although they often show signs of prior clonal expansion. Hypothesizing that this may be due to peripheral tolerance, we formulated nanoparticles containing innate immune stimulants that we found were sufficient to activate self-specific CD8+ T cells and injected them into two different mouse tumor models, B16F10 and MC38. These nanoparticles robustly activated and/or expanded antigen-specific CD8+ tumor-infiltrating T cells, along with a decrease in regulatory CD4+ T cells and an increase in Interleukin-17 producers, resulting in significant tumor growth retardation or elimination and the establishment of immune memory in surviving mice. Furthermore, nanoparticles with modification of stimulating human T cells enabled the robust activation of endogenous T cells in patientderived tumor organoids. These results indicate that breaking peripheral tolerance without regard to the antigen specificity creates a promising pathway for cancer immunotherapy. [ABSTRACT FROM AUTHOR]
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- 2021
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14. Engineered Matrices Enable the Culture of Human Patient‐Derived Intestinal Organoids.
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Hunt, Daniel R., Klett, Katarina C., Mascharak, Shamik, Wang, Huiyuan, Gong, Diana, Lou, Junzhe, Li, Xingnan, Cai, Pamela C., Suhar, Riley A., Co, Julia Y., LeSavage, Bauer L., Foster, Abbygail A., Guan, Yuan, Amieva, Manuel R., Peltz, Gary, Xia, Yan, Kuo, Calvin J., and Heilshorn, Sarah C.
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INTESTINES , *ORGANOIDS , *SYNTHETIC products , *STRAINS & stresses (Mechanics) , *INTEGRINS - Abstract
Human intestinal organoids from primary human tissues have the potential to revolutionize personalized medicine and preclinical gastrointestinal disease models. A tunable, fully defined, designer matrix, termed hyaluronan elastin‐like protein (HELP) is reported, which enables the formation, differentiation, and passaging of adult primary tissue‐derived, epithelial‐only intestinal organoids. HELP enables the encapsulation of dissociated patient‐derived cells, which then undergo proliferation and formation of enteroids, spherical structures with polarized internal lumens. After 12 rounds of passaging, enteroid growth in HELP materials is found to be statistically similar to that in animal‐derived matrices. HELP materials also support the differentiation of human enteroids into mature intestinal cell subtypes. HELP matrices allow stiffness, stress relaxation rate, and integrin‐ligand concentration to be independently and quantitatively specified, enabling fundamental studies of organoid–matrix interactions and potential patient‐specific optimization. Organoid formation in HELP materials is most robust in gels with stiffer moduli (G' ≈ 1 kPa), slower stress relaxation rate (t1/2 ≈ 18 h), and higher integrin ligand concentration (0.5 × 10−3–1 × 10−3m RGD peptide). This material provides a promising in vitro model for further understanding intestinal development and disease in humans and a reproducible, biodegradable, minimal matrix with no animal‐derived products or synthetic polyethylene glycol for potential clinical translation. [ABSTRACT FROM AUTHOR]
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- 2021
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15. Engineered Matrices Enable the Culture of Human Patient‐Derived Intestinal Organoids.
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Hunt, Daniel R., Klett, Katarina C., Mascharak, Shamik, Wang, Huiyuan, Gong, Diana, Lou, Junzhe, Li, Xingnan, Cai, Pamela C., Suhar, Riley A., Co, Julia Y., LeSavage, Bauer L., Foster, Abbygail A., Guan, Yuan, Amieva, Manuel R., Peltz, Gary, Xia, Yan, Kuo, Calvin J., and Heilshorn, Sarah C.
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INTESTINES , *ORGANOIDS , *SYNTHETIC products , *STRAINS & stresses (Mechanics) , *MATRICES (Mathematics) - Abstract
Human intestinal organoids from primary human tissues have the potential to revolutionize personalized medicine and preclinical gastrointestinal disease models. A tunable, fully defined, designer matrix, termed hyaluronan elastin‐like protein (HELP) is reported, which enables the formation, differentiation, and passaging of adult primary tissue‐derived, epithelial‐only intestinal organoids. HELP enables the encapsulation of dissociated patient‐derived cells, which then undergo proliferation and formation of enteroids, spherical structures with polarized internal lumens. After 12 rounds of passaging, enteroid growth in HELP materials is found to be statistically similar to that in animal‐derived matrices. HELP materials also support the differentiation of human enteroids into mature intestinal cell subtypes. HELP matrices allow stiffness, stress relaxation rate, and integrin‐ligand concentration to be independently and quantitatively specified, enabling fundamental studies of organoid–matrix interactions and potential patient‐specific optimization. Organoid formation in HELP materials is most robust in gels with stiffer moduli (G' ≈ 1 kPa), slower stress relaxation rate (t1/2 ≈ 18 h), and higher integrin ligand concentration (0.5 × 10−3–1 × 10−3m RGD peptide). This material provides a promising in vitro model for further understanding intestinal development and disease in humans and a reproducible, biodegradable, minimal matrix with no animal‐derived products or synthetic polyethylene glycol for potential clinical translation. [ABSTRACT FROM AUTHOR]
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- 2021
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16. Surrogate R-spondins for tissue-specific potentiation of Wnt Signaling.
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Luca, Vincent C., Miao, Yi, Li, Xingnan, Hollander, Michael J., Kuo, Calvin J., and Garcia, K. Christopher
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WNT signal transduction , *G protein coupled receptors , *CELL proliferation , *STEM cells , *REGENERATIVE medicine - Abstract
Secreted R-spondin1-4 proteins (RSPO1-4) orchestrate stem cell renewal and tissue homeostasis by potentiating Wnt/β-catenin signaling. RSPOs induce the turnover of negative Wnt regulators RNF43 and ZNRF3 through a process that requires RSPO interactions with Leucine-rich repeat-containing G-protein coupled receptors (LGRs), or through an LGR-independent mechanism that is enhanced by RSPO binding to heparin sulfate proteoglycans (HSPGs). Here, we describe the engineering of 'surrogate RSPOs' that function independently of LGRs to potentiate Wnt signaling on cell types expressing a target surface marker. These bispecific proteins were generated by fusing an RNF43- or ZNRF3-specific single chain antibody variable fragment (scFv) to the immune cytokine IL-2. Surrogate RSPOs mimic the function of natural RSPOs by crosslinking the extracellular domain (ECD) of RNF43 or ZNRF3 to the ECD of the IL-2 receptor CD25, which sequesters the complex and results in highly selective amplification of Wnt signaling on CD25+ cells. Furthermore, surrogate RSPOs were able substitute for wild type RSPO in a colon organoid growth assay when intestinal stem cells were transduced to express CD25. Our results provide proof-of-concept for a technology that may be adapted for use on a broad range of cell- or tissue-types and will open new avenues for the development of Wnt-based therapeutics for regenerative medicine. [ABSTRACT FROM AUTHOR]
- Published
- 2020
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17. Linked read sequencing resolves complex genomic rearrangements in gastric cancer metastases.
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Greer, Stephanie U., Nadauld, Lincoln D., Lau, Billy T., Chen, Jiamin, Wood-Bouwens, Christina, Ford, James M., Kuo, Calvin J., and Ji, Hanlee P.
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ONCOLOGY , *GENOMES , *GASTRIC diseases , *DNA analysis , *METASTASIS , *DIAGNOSIS - Abstract
Background: Genome rearrangements are critical oncogenic driver events in many malignancies. However, the identification and resolution of the structure of cancer genomic rearrangements remain challenging even with whole genome sequencing. Methods: To identify oncogenic genomic rearrangements and resolve their structure, we analyzed linked read sequencing. This approach relies on a microfluidic droplet technology to produce libraries derived from single, high molecular weight DNA molecules, 50 kb in size or greater. After sequencing, the barcoded sequence reads provide long range genomic information, identify individual high molecular weight DNA molecules, determine the haplotype context of genetic variants that occur across contiguous megabase-length segments of the genome and delineate the structure of complex rearrangements. We applied linked read sequencing of whole genomes to the analysis of a set of synchronous metastatic diffuse gastric cancers that occurred in the same individual. Results: When comparing metastatic sites, our analysis implicated a complex somatic rearrangement that was present in the metastatic tumor. The oncogenic event associated with the identified complex rearrangement resulted in an amplification of the known cancer driver gene FGFR2. With further investigation using these linked read data, the FGFR2 copy number alteration was determined to be a deletion-inversion motif that underwent tandem duplication, with unique breakpoints in each metastasis. Using a three-dimensional organoid tissue model, we functionally validated the metastatic potential of an FGFR2 amplification in gastric cancer. Conclusions: Our study demonstrates that linked read sequencing is useful in characterizing oncogenic rearrangements in cancer metastasis. [ABSTRACT FROM AUTHOR]
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- 2017
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18. Relief of hypoxia by angiogenesis promotes neural stem cell differentiation by targeting glycolysis.
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Lange, Christian, Turrero Garcia, Miguel, Decimo, Ilaria, Bifari, Francesco, Eelen, Guy, Quaegebeur, Annelies, Boon, Ruben, Zhao, Hui, Boeckx, Bram, Chang, Junlei, Wu, Christine, Le Noble, Ferdinand, Lambrechts, Diether, Dewerchin, Mieke, Kuo, Calvin J, Huttner, Wieland B, and Carmeliet, Peter
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HYPOXEMIA , *NEURAL stem cells , *CELL differentiation , *GLYCOLYSIS , *STEM cell niches , *CEREBRAL cortex - Abstract
Blood vessels are part of the stem cell niche in the developing cerebral cortex, but their in vivo role in controlling the expansion and differentiation of neural stem cells ( NSCs) in development has not been studied. Here, we report that relief of hypoxia in the developing cerebral cortex by ingrowth of blood vessels temporo-spatially coincided with NSC differentiation. Selective perturbation of brain angiogenesis in vessel-specific Gpr124 null embryos, which prevented the relief from hypoxia, increased NSC expansion at the expense of differentiation. Conversely, exposure to increased oxygen levels rescued NSC differentiation in Gpr124 null embryos and increased it further in WT embryos, suggesting that niche blood vessels regulate NSC differentiation at least in part by providing oxygen. Consistent herewith, hypoxia-inducible factor ( HIF)-1α levels controlled the switch of NSC expansion to differentiation. Finally, we provide evidence that high glycolytic activity of NSCs is required to prevent their precocious differentiation in vivo. Thus, blood vessel function is required for efficient NSC differentiation in the developing cerebral cortex by providing oxygen and possibly regulating NSC metabolism. [ABSTRACT FROM AUTHOR]
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- 2016
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19. R-SPONDIN2+ mesenchymal cells form the bud tip progenitor niche during human lung development.
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Hein, Renee F.C., Wu, Joshua H., Holloway, Emily M., Frum, Tristan, Conchola, Ansley S., Tsai, Yu-Hwai, Wu, Angeline, Fine, Alexis S., Miller, Alyssa J., Szenker-Ravi, Emmanuelle, Yan, Kelley S., Kuo, Calvin J., Glass, Ian, Reversade, Bruno, and Spence, Jason R.
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LUNGS , *LUNG development , *BUDS , *WNT signal transduction , *RNA sequencing , *STEM cell niches , *CELL populations - Abstract
The human respiratory epithelium is derived from a progenitor cell in the distal buds of the developing lung. These "bud tip progenitors" are regulated by reciprocal signaling with surrounding mesenchyme; however, mesenchymal heterogeneity and function in the developing human lung are poorly understood. We interrogated single-cell RNA sequencing data from multiple human lung specimens and identified a mesenchymal cell population present during development that is highly enriched for expression of the WNT agonist RSPO2, and we found that the adjacent bud tip progenitors are enriched for the RSPO2 receptor LGR5. Functional experiments using organoid models, explant cultures, and FACS-isolated RSPO2+ mesenchyme show that RSPO2 is a critical niche cue that potentiates WNT signaling in bud tip progenitors to support their maintenance and multipotency. [Display omitted] • scRNA-seq of developing human distal lung mesenchyme identified cellular heterogeneity • RSPO2+ mesenchymal cells lie adjacent to LGR5+ epithelial bud tip progenitors • Blocking RSPO2/LGR5 in vitro reduced WNT signaling and led to airway differentiation • RSPO2+ mesenchyme provides a niche for bud tips in co-cultures Hein et al. present the scRNA-seq of the developing human distal lung, showing transcriptionally distinct populations of mesenchyme. Spatial profiling showed that RSPO2+ mesenchymal cells are physically adjacent to LGR5+ epithelial bud tips. Organoid experiments revealed that RSPO2+ cells create a high WNT signaling environment, supporting bud tip identity and multipotency. [ABSTRACT FROM AUTHOR]
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- 2022
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20. A multicenter study to standardize reporting and analyses of fluorescence-activated cell-sorted murine intestinal epithelial cells.
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Magness, Scott T., Puthoff, Brent J., Crissey, Mary Ann, Dunn, James, Henning, Susan J., Houchen, Courtney, Kaddis, John S., Kuo, Calvin J., Linheng Li, Lynch, John, Martin, Martin G., May, Randal, Niland, Joyce C., Olack, Barbara, Qian, Dajun, Stelzner, Matthias, Swain, John R., Fengchao Wang, Jiafang Wang, and Xinwei Wang
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INTESTINAL physiology , *EPITHELIAL cells , *FLOW cytometry , *BIOLOGICAL systems , *FATE mapping (Genetics) , *BIOMARKERS - Abstract
Fluorescence-activated cell sorting (FACS) is an essential tool for studies requiring isolation of distinct intestinal epithelial cell populations. Inconsistent or lack of reporting of the critical parameters associated with FACS methodologies has complicated interpretation, comparison, and reproduction of important findings. To address this problem a comprehensive multicenter study was designed to develop guidelines that limit experimental and data reporting variability and provide a foundation for accurate comparison of data between studies. Common methodologies and data reporting protocols for tissue dissociation, cell yield, cell viability, FACS, and postsort purity were established. Seven centers tested the standardized methods by FACSisolating a specific crypt-based epithelial population (EpCAM+/ CD44+) from murine small intestine. Genetic biomarkers for stem/ progenitor (Lgr5 and Atoh 1) and differentiated cell lineages (lysozyme, mucin2, chromogranin A, and sucrase isomaltase) were interrogated in target and control populations to assess intra- and intercenter variability. Wilcoxon's rank sum test on gene expression levels showed limited intracenter variability between biological replicates. Principal component analysis demonstrated significant intercenter reproducibility among four centers. Analysis of data collected by standardized cell isolation methods and data reporting requirements readily identified methodological problems, indicating that standard reporting parameters facilitate post hoc error identification. These results indicate that the complexity of FACS isolation of target intestinal epithelial populations can be highly reproducible between biological replicates and different institutions by adherence to common cell isolation methods and FACS gating strategies. This study can be considered a foundation for continued method development and a starting point for investigators that are developing cell isolation expertise to study physiology and pathophysiology of the intestinal epithelium. [ABSTRACT FROM AUTHOR]
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- 2013
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21. Cross-talk between hypoxia and insulin signaling through Phd3 regulates hepatic glucose and lipid metabolism and ameliorates diabetes.
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Taniguchi, Cullen M, Finger, Elizabeth C, Krieg, Adam J, Wu, Colleen, Diep, Anh N, LaGory, Edward L, Wei, Kevin, McGinnis, Lisa M, Yuan, Jenny, Kuo, Calvin J, and Giaccia, Amato J
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HYPOXIA-inducible factor 1 , *INSULIN , *CELLULAR signal transduction , *LIPID metabolism , *GLUCOSE metabolism , *DIABETES , *PROTEIN stability , *HYDROXYLASES - Abstract
Signaling initiated by hypoxia and insulin powerfully alters cellular metabolism. The protein stability of hypoxia-inducible factor-1 alpha (Hif-1α) and Hif-2α is regulated by three prolyl hydroxylase domain-containing protein isoforms (Phd1, Phd2 and Phd3). Insulin receptor substrate-2 (Irs2) is a critical mediator of the anabolic effects of insulin, and its decreased expression contributes to the pathophysiology of insulin resistance and diabetes. Although Hif regulates many metabolic pathways, it is unknown whether the Phd proteins regulate glucose and lipid metabolism in the liver. Here, we show that acute deletion of hepatic Phd3, also known as Egln3, improves insulin sensitivity and ameliorates diabetes by specifically stabilizing Hif-2α, which then increases Irs2 transcription and insulin-stimulated Akt activation. Hif-2α and Irs2 are both necessary for the improved insulin sensitivity, as knockdown of either molecule abrogates the beneficial effects of Phd3 knockout on glucose tolerance and insulin-stimulated Akt phosphorylation. Augmenting levels of Hif-2α through various combinations of Phd gene knockouts did not further improve hepatic metabolism and only added toxicity. Thus, isoform-specific inhibition of Phd3 could be exploited to treat type 2 diabetes without the toxicity that could occur with chronic inhibition of multiple Phd isoforms. [ABSTRACT FROM AUTHOR]
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- 2013
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22. β-Catenin-Driven Cancers Require a YAP1 Transcriptional Complex for Survival and Tumorigenesis
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Rosenbluh, Joseph, Nijhawan, Deepak, Cox, Andrew G., Li, Xingnan, Neal, James T., Schafer, Eric J., Zack, Travis I., Wang, Xiaoxing, Tsherniak, Aviad, Schinzel, Anna C., Shao, Diane D., Schumacher, Steven E., Weir, Barbara A., Vazquez, Francisca, Cowley, Glenn S., Root, David E., Mesirov, Jill P., Beroukhim, Rameen, Kuo, Calvin J., and Goessling, Wolfram
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- 2013
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23. Restriction of intestinal stem cell expansion and the regenerative response by YAP.
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Barry, Evan R., Morikawa, Teppei, Butler, Brian L., Shrestha, Kriti, de la Rosa, Rosemarie, Yan, Kelley S., Fuchs, Charles S., Magness, Scott T., Smits, Ron, Ogino, Shuji, Kuo, Calvin J., and Camargo, Fernando D.
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STEM cells , *CELL proliferation , *WNT proteins , *REGENERATION (Biology) , *GENE expression , *COLON cancer - Abstract
A remarkable feature of regenerative processes is their ability to halt proliferation once an organ's structure has been restored. The Wnt signalling pathway is the major driving force for homeostatic self-renewal and regeneration in the mammalian intestine. However, the mechanisms that counterbalance Wnt-driven proliferation are poorly understood. Here we demonstrate in mice and humans that yes-associated protein 1 (YAP; also known as YAP1)-a protein known for its powerful growth-inducing and oncogenic properties-has an unexpected growth-suppressive function, restricting Wnt signals during intestinal regeneration. Transgenic expression of YAP reduces Wnt target gene expression and results in the rapid loss of intestinal crypts. In addition, loss of YAP results in Wnt hypersensitivity during regeneration, leading to hyperplasia, expansion of intestinal stem cells and niche cells, and formation of ectopic crypts and microadenomas. We find that cytoplasmic YAP restricts elevated Wnt signalling independently of the AXIN-APC-GSK-3? complex partly by limiting the activity of dishevelled (DVL). DVL signals in the nucleus of intestinal stem cells, and its forced expression leads to enhanced Wnt signalling in crypts. YAP dampens Wnt signals by restricting DVL nuclear translocation during regenerative growth. Finally, we provide evidence that YAP is silenced in a subset of highly aggressive and undifferentiated human colorectal carcinomas, and that its expression can restrict the growth of colorectal carcinoma xenografts. Collectively, our work describes a novel mechanistic paradigm for how proliferative signals are counterbalanced in regenerating tissues. Additionally, our findings have important implications for the targeting of YAP in human malignancies. [ABSTRACT FROM AUTHOR]
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- 2013
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24. β-Catenin-Driven Cancers Require a YAP1 Transcriptional Complex for Survival and Tumorigenesis
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Rosenbluh, Joseph, Nijhawan, Deepak, Cox, Andrew G., Li, Xingnan, Neal, James T., Schafer, Eric J., Zack, Travis I., Wang, Xiaoxing, Tsherniak, Aviad, Schinzel, Anna C., Shao, Diane D., Schumacher, Steven E., Weir, Barbara A., Vazquez, Francisca, Cowley, Glenn S., Root, David E., Mesirov, Jill P., Beroukhim, Rameen, Kuo, Calvin J., and Goessling, Wolfram
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CATENINS , *CELLULAR signal transduction , *WNT proteins , *GENETIC transcription , *CARCINOGENESIS , *CELL lines , *TRANSCRIPTION factors - Abstract
Summary: Wnt/β-catenin signaling plays a key role in the pathogenesis of colon and other cancers; emerging evidence indicates that oncogenic β-catenin regulates several biological processes essential for cancer initiation and progression. To decipher the role of β-catenin in transformation, we classified β-catenin activity in 85 cancer cell lines in which we performed genome-scale loss-of-function screens and found that β-catenin active cancers are dependent on a signaling pathway involving the transcriptional regulator YAP1. Specifically, we found that YAP1 and the transcription factor TBX5 form a complex with β-catenin. Phosphorylation of YAP1 by the tyrosine kinase YES1 leads to localization of this complex to the promoters of antiapoptotic genes, including BCL2L1 and BIRC5. A small-molecule inhibitor of YES1 impeded the proliferation of β-catenin-dependent cancers in both cell lines and animal models. These observations define a β-catenin-YAP1-TBX5 complex essential to the transformation and survival of β-catenin-driven cancers. [ABSTRACT FROM AUTHOR]
- Published
- 2012
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25. The HIF Signaling Pathway in Osteoblasts Directly Modulates Erythropoiesis through the Production of EPO
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Rankin, Erinn B., Wu, Colleen, Khatri, Richa, Wilson, Tremika L.S., Andersen, Rebecca, Araldi, Elisa, Rankin, Andrew L., Yuan, Jenny, Kuo, Calvin J., Schipani, Ernestina, and Giaccia, Amato J.
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CELLULAR signal transduction , *GENE expression , *HYPOXIA-inducible factors , *HEMATOPOIESIS , *OSTEOBLASTS , *ERYTHROPOIESIS , *LABORATORY mice - Abstract
Summary: Osteoblasts are an important component of the hematopoietic microenvironment in bone. However, the mechanisms by which osteoblasts control hematopoiesis remain unknown. We show that augmented HIF signaling in osteoprogenitors results in HSC niche expansion associated with selective expansion of the erythroid lineage. Increased red blood cell production occurred in an EPO-dependent manner with increased EPO expression in bone and suppressed EPO expression in the kidney. In contrast, inactivation of HIF in osteoprogenitors reduced EPO expression in bone. Importantly, augmented HIF activity in osteoprogenitors protected mice from stress-induced anemia. Pharmacologic or genetic inhibition of prolyl hydroxylases1/2/3 in osteoprogenitors elevated EPO expression in bone and increased hematocrit. These data reveal an unexpected role for osteoblasts in the production of EPO and modulation of erythropoiesis. Furthermore, these studies demonstrate a molecular role for osteoblastic PHD/VHL/HIF signaling that can be targeted to elevate both HSCs and erythroid progenitors in the local hematopoietic microenvironment. PaperClip: Display Omitted [Copyright &y& Elsevier]
- Published
- 2012
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26. The intestinal stem cell markers Bmi1 and Lgr5 identify two functionally distinct populations.
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Yan, Kelley S., Chia, Luis A., Xingnan Lia, Akifumi Ootani, Su, James, Lee, Josephine V., Nan Su, Yuling Luo, Heilshorn, Sarah C., Amieva, Manuel R., Sangiorgi, Eugenio, Capecchi, Mario R., and Kuo, Calvin J.
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STEM cells , *RADIATION injuries , *G proteins , *HOMEOSTASIS , *DNA , *REGENERATION (Biology) - Abstract
The small intestine epithelium undergoes rapid and continuous regeneration supported by crypt intestinal stem cells (ISCs). Bmil and Lgr5 have been iridependently identified to mark long-lived multipotent lSCs by lineage tracing in mice; however, the functional distinctions between these two populations remain undefined. Here, we demonstrate that Bmil and Lgr5 mark two functionallydistinct ISC5 in vivo. Lgr5 marks mitotically active lSCs that exhibit exquisite sensitivity to canonical Wnt modulation, contribute robustly to homeostatic regeneration, and are quantitatively ablated by irradiation. In contrast, Bmil marks quiescent lSCs that are insensitive to Wnt perturbations, contribute weakly to homeostatic regeneration, and are resistant to high-dose radiation injury. After irradiation, however, the normally quiescent Bmi1+ lSCs dramatically proliferate to clonally repopulate multiple contiguous crypts and villi. Clonogenic culture of isolated single Bmi1+ ISCs yields long-lived self-renewing spheroids of intestinal epithelium that produce Lgr5-expressing cells, thereby establishing a lineage relationship between these two populations in vitro. Taken together, these data provide direct evidence that Bmil marks quiescent, injury-inducible reserve ISCs that exhibit striking functional distinctions from Lgr5+ ISC5 and support a model whereby distinct ISC populations facilitate homeostatic vs. injury-induced regeneration. [ABSTRACT FROM AUTHOR]
- Published
- 2012
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27. Reversible cell-cycle entry in adult kidney podocytes through regulated control of telomerase and Wnt signaling.
- Author
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Shkreli, Marina, Sarin, Kavita Y, Pech, Matthew F, Papeta, Natalia, Chang, Woody, Brockman, Stephanie A, Cheung, Peggie, Lee, Eunice, Kuhnert, Frank, Olson, Jean L, Kuo, Calvin J, Gharavi, Ali G, D'Agati, Vivette D, and Artandi, Steven E
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KIDNEY glomerulus diseases , *TELOMERASE , *WNT genes , *EPITHELIAL cells , *LABORATORY mice , *TRANSGENIC animals , *KIDNEY diseases , *DIAGNOSIS - Abstract
Mechanisms of epithelial cell renewal remain poorly understood in the mammalian kidney, particularly in the glomerulus, a site of cellular damage in chronic kidney disease. Within the glomerulus, podocytes-differentiated epithelial cells crucial for filtration-are thought to lack substantial capacity for regeneration. Here we show that podocytes rapidly lose differentiation markers and enter the cell cycle in adult mice in which the telomerase protein component TERT is conditionally expressed. Transgenic TERT expression in mice induces marked upregulation of Wnt signaling and disrupts glomerular structure, resulting in a collapsing glomerulopathy resembling those in human disease, including HIV-associated nephropathy (HIVAN). Human and mouse HIVAN kidneys show increased expression of TERT and activation of Wnt signaling, indicating that these are general features of collapsing glomerulopathies. Silencing transgenic TERT expression or inhibiting Wnt signaling through systemic expression of the Wnt inhibitor Dkk1 in either TERT transgenic mice or in a mouse model of HIVAN results in marked normalization of podocytes, including rapid cell-cycle exit, re-expression of differentiation markers and improved filtration barrier function. These data reveal an unexpected capacity of podocytes to reversibly enter the cell cycle, suggest that podocyte renewal may contribute to glomerular homeostasis and implicate the telomerase and Wnt-?-catenin pathways in podocyte proliferation and disease. [ABSTRACT FROM AUTHOR]
- Published
- 2012
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28. VEGF signaling has distinct spatiotemporal roles during heart valve development
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Stankunas, Kryn, Ma, Gene K., Kuhnert, Frank J., Kuo, Calvin J., and Chang, Ching-Pin
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VASCULAR endothelial growth factors , *HEART valves , *COMMON atrioventricular canal , *MITRAL valve , *HUMAN abnormalities , *ENDOCARDIAL cushion defects , *MORPHOGENESIS - Abstract
Abstract: Heart valve malformations are one of the most common types of birth defects, illustrating the complex nature of valve development. Vascular endothelial growth factor (VEGF) signaling is one pathway implicated in valve formation, however its specific spatial and temporal roles remain poorly defined. To decipher these contributions, we use two inducible dominant negative approaches in mice to disrupt VEGF signaling at different stages of embryogenesis. At an early step in valve development, VEGF signals are required for the full transformation of endocardial cells to mesenchymal cells (EMT) at the outflow tract (OFT) but not atrioventricular canal (AVC) endocardial cushions. This role likely involves signaling mediated by VEGF receptor 1 (VEGFR1), which is highly expressed in early cushion endocardium before becoming downregulated after EMT. In contrast, VEGFR2 does not exhibit robust cushion endocardium expression until after EMT is complete. At this point, VEGF signaling acts through VEGFR2 to direct the morphogenesis of the AVC cushions into mature, elongated valve leaflets. This latter role of VEGF requires the VEGF-modulating microRNA, miR-126. Thus, VEGF roles in the developing valves are dynamic, transitioning from a differentiation role directed by VEGFR1 in the OFT to a morphogenetic role through VEGFR2 primarily in the AVC-derived valves. [ABSTRACT FROM AUTHOR]
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- 2010
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29. Essential Regulation of CNS Angiogenesis by the Orphan G Protein-Coupled Receptor GPR124.
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Kuhnert, Frank, Mancuso, Michael R., Shamloo, Amir, Wang, Hsiao-Ting, Choksi, Vir, Florek, Mareike, Su, Hua, Fruttiger, Marcus, Young, William L., Heilshorn, Sarah C., and Kuo, Calvin J.
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REGULATION of neovascularization , *CENTRAL nervous system diseases , *G proteins , *TUMOR immunology , *ENDOTHELIUM , *PROSENCEPHALON , *NEURAL tube defects , *VASCULAR diseases - Abstract
The orphan G protein-coupled receptor (GPCR) GPR124/tumor endothelial marker 5 is highly expressed in central nervous system (CNS) endothelium. Here, we show that complete null or endothelial-specific GPR124 deletion resulted in embryonic lethality from CNS-specific angiogenesis arrest in forebrain and neural tube. Conversely, GPR124 overexpression throughout all adult vascular beds produced CNS-specific hyperproliferative vascular malformations. In vivo, GPR124 functioned cell-autonomously in endothelium to regulate sprouting, migration, and developmental expression of the blood-brain barrier marker Glut1, whereas in vitro, GPR124 mediated Cdc42-dependent directional migration to forebrain-derived, vascular endothelial growth factor-independent cues. Our results demonstrate CNS-specific angiogenesis regulation by an endothelial receptor and illuminate functions of the poorly understood adhesion GPCR subfamily. Further, the functional tropism of GPR124 marks this receptor as a therapeutic target for CNS-related vascular pathologies. [ABSTRACT FROM AUTHOR]
- Published
- 2010
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30. Sustained in vitro intestinal epithelial culture within a Wnt-dependent stem cell niche.
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Ootani, Akifumi, Xingnan Li, Sangiorgi, Eugenio, Ho, Quoc T., Ueno, Hiroo, Toda, Shuji, Sugihara, Hajime, Fujimoto, Kazuma, Weissman, Irving L., Capecchi, Mario R., and Kuo, Calvin J.
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STEM cells , *MOUSE leukemia viruses , *EPITHELIAL cells , *CELL culture , *MEMBRANE proteins - Abstract
The in vitro analysis of intestinal epithelium has been hampered by a lack of suitable culture systems. Here we describe robust long-term methodology for small and large intestinal culture, incorporating an air-liquid interface and underlying stromal elements. These cultures showed prolonged intestinal epithelial expansion as sphere-like organoids with proliferation and multilineage differentiation. The Wnt growth factor family positively regulates proliferation of the intestinal epithelium in vivo. Accordingly, culture growth was inhibited by the Wnt antagonist Dickkopf-1 (Dkk1) and markedly stimulated by a fusion protein between the Wnt agonist R-spondin-1 and immunoglobulin Fc (RSpo1-Fc). Furthermore, treatment with the γ-secretase inhibitor dibenzazepine and neurogenin-3 overexpression induced goblet cell and enteroendocrine cell differentiation, respectively, consistent with endogenous Notch signaling and lineage plasticity. Epithelial cells derived from both leucine-rich repeat-containing G protein–coupled receptor-5–positive (Lgr5+) and B lymphoma moloney murine leukemia virus insertion region homolog-1–positive (Bmi1+) lineages, representing putative intestinal stem cell (ISC) populations, were present in vitro and were expanded by treatment with RSpo1-Fc; this increased number of Lgr5+ cells upon RSpo1-Fc treatment was subsequently confirmed in vivo. Our results indicate successful long-term intestinal culture within a microenvironment accurately recapitulating the Wnt- and Notch-dependent ISC niche. [ABSTRACT FROM AUTHOR]
- Published
- 2009
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31. Endochondral ossification is required for haematopoietic stem-cell niche formation.
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Chan, Charles K. F., Chen, Ching-Cheng, Luppen, Cynthia A., Kim, Jae-Beom, DeBoer, Anthony T., Wei, Kevin, Helms, Jill A., Kuo, Calvin J., Kraft, Daniel L., and Weissman, Irving L.
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ENDOCHONDRAL ossification , *HEMATOPOIETIC stem cells , *BONE marrow , *BONE cells , *BIOLOGICAL assay , *RESEARCH methodology , *GENE silencing , *VASCULAR endothelial growth factors - Abstract
Little is known about the formation of niches, local micro-environments required for stem-cell maintenance. Here we develop an in vivo assay for adult haematopoietic stem-cell (HSC) niche formation. With this assay, we identified a population of progenitor cells with surface markers CD45-Tie2-αV+CD105+Thy1.1- (CD105+Thy1-) that, when sorted from 15.5 days post-coitum fetal bones and transplanted under the adult mouse kidney capsule, could recruit host-derived blood vessels, produce donor-derived ectopic bones through a cartilage intermediate and generate a marrow cavity populated by host-derived long-term reconstituting HSC (LT-HSC). In contrast, CD45-Tie2-αV+CD105+Thy1+ (CD105+Thy1+) fetal bone progenitors form bone that does not contain a marrow cavity. Suppressing expression of factors involved in endochondral ossification, such as osterix and vascular endothelial growth factor (VEGF), inhibited niche generation. CD105+Thy1- progenitor populations derived from regions of the fetal mandible or calvaria that do not undergo endochondral ossification formed only bone without marrow in our assay. Collectively, our data implicate endochondral ossification, bone formation that proceeds through a cartilage intermediate, as a requirement for adult HSC niche formation. [ABSTRACT FROM AUTHOR]
- Published
- 2009
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32. Wnt/β-catenin signaling is required for CNS, but not non-CNS, angiogenesis.
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Daneman, Richard, Agalliu, Dritan, Lu Zhou, Kunert, Frank, Kuo, Calvin J., and Barres, Ben A.
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NEOVASCULARIZATION , *BLOOD vessels , *LIGANDS (Biochemistry) , *BLOOD-brain barrier , *HYPOXEMIA , *LABORATORY rats - Abstract
Despite the importance of CNS blood vessels, the molecular mechanisms that regulate CNS angiogenesis and blood-brain barrier (BBB) formation are largely unknown. Here we analyze the role of Wnt/β-catenin signaling in regulating the formation of CNS blood vessels. First, through the analysis of TOP-Gal Wnt reporter mice, weidentify that canonical Wnt/β-catenin signaling is specifically activated in CNS, but not non-CNS, blood vessels during development. This activation correlates with the .expression of different Wnt ligands by neural progenitor cells in distinct locations throughout the CNS, including Wnt7a and Wnt7b in ventral regions and Wnti, Wnt3, Wnt3a, and Wnt4 in dorsal regions. Blockade of Wnt/β-catenin signaling in vivo specifically disrupts CNS, but not non-CNS, angiogenesis. These defects include reduction in vessel number, loss of capillary beds, and the formation of hemorrhagic vascular malformations that remain adherent to the meninges. Furthermore, we demonstrate that Wnt/β-catenin signaling regulates the expression of the BBB-specific glucose transporter glut-1. Taken together these experiments reveal an essential role for Wnt/β-catenin signaling in driving CNS-specific angiogenesis and provide molecular evidence that angiogenesis and BBB formation are in part linked. [ABSTRACT FROM AUTHOR]
- Published
- 2009
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33. Soluble receptor-mediated selective inhibition of VEGFR and PDGFRß signaling during physiologic and tumor angiogenesis.
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Kuhnert, Frank, Tam, Betty V. V., Sennino, Barbara, Gray, John T., Yuan, Jenny, Jocson, Angeline, Nayak, Nihar R, Mulligan, Richard C., McDonald, Donald M., and Kuo, Calvin J.
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NEOVASCULARIZATION , *TUMORS , *DRUG antagonism , *THERAPEUTICS , *MESSENGER RNA - Abstract
The simultaneous targeting of both endothelial cells and pericytes via inhibition of VEGF receptor (VEGFR) and PDGFβ receptor (PDGFRβ) signaling, respectively, has been proposed to enhance the efficacy of antiangiogenic tumor therapy. Clinical and preclinical modeling of combined VEGFR and PDGFRβ signaling inhibition, however, has used small molecule kinase inhibitors with inherently broad substrate specificities, precluding detailed examination of this hypothesis. Here, adenoviral expression of a soluble VEGFR2/Flk1 ectodomain (Ad Flk1-Fc) in combination with a soluble ectodomain of PDGFRβ (Ad sPDGFRβ) allowed highly selective inhibition of these pathways. The activity of Ad SPDGFRβ was validated in vitro against PDGF-BB and in vivo with near-complete blockade of pericyte recruitment in the angiogenic corpus luteum, resulting in prominent hemorrhage, thus demonstrating an essential function for PDGF signaling during ovarian angiogenesis. Combination therapy with Ad PDGFRβ and submaximal doses of Ad Flk1-Fc produced modest additive antitumor effects; however, no additivity was observed with maximal VEGF inhibition in numerous s.c. models. Notably. VEGF inhibition via Ad Flk1-Fc was sufficient to strongly suppress tumor endothelial and pericyte content as well as intratumoral PDGF-B mRNA. obscuring additive Ad SPDGFRβ effects on pericytes or tumor volume. These studies using highly specific soluble receptors suggest that additivity between VEGFR and PDGFRβ inhibition depends on the strength of VEGF blockade and appears minimal under conditions of maximal VEGF antagonism. [ABSTRACT FROM AUTHOR]
- Published
- 2008
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34. Increased Wnt Signaling During Aging Alters Muscle Stem Cell Fate and Increases Fibrosis.
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Brack, Andrew S., Conboy, Michael J., Roy, Sudeep, Lee, Mark, Kuo, Calvin J., Keller, Charles, and Rando, Thomas A.
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AGING , *WNT proteins , *FIBROSIS , *MUSCLE cells , *DEVELOPMENTAL biology , *CELLS , *MUSCLES , *SATELLITE cells , *MYOBLASTS - Abstract
The regenerative potential of skeletal muscle declines with age, and this impairment is associated with an increase in tissue fibrosis. We show that muscle stem cells (satellite cells) from aged mice tend to convert from a myogenic to a fibrogenic lineage as they begin to proliferate and that this conversion is mediated by factors in the systemic environment of the old animals. We also show that this lineage conversion is associated with an activation of the canonical Wnt signaling pathway in aged myogenic progenitors and can be suppressed by Wnt inhibitors. Furthermore, components of serum from aged mice that bind to the Frizzled family of proteins, which are Wnt receptors, may account for the elevated Wnt signaling in aged cells. These results indicate that the Wnt signaling pathway may play a critical role in tissue-specific stem cell aging and an increase in tissue fibrosis with age. [ABSTRACT FROM AUTHOR]
- Published
- 2007
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35. Augmented Wnt Signaling in a Mammalian Model of Accelerated Aging.
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Hongjun Liu, Fergusson, Maria M., Castilho, Rogerio M., Jie Liu, Liu Cao, Jichun Chen, Malide, Daniela, Rovira, Ilsa I., Schimel, Daniel, Kuo, Calvin J., Gutkind, J. Silvio, Hwang, Paul M., and Finkel, Toren
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AGING , *CELL death , *DEVELOPMENTAL biology , *WNT proteins , *CELLS , *ANIMAL experimentation , *OLD age , *GROWTH factors , *STEM cells - Abstract
The contribution of stem and progenitor cell dysfunction and depletion in normal aging remains incompletely understood. We explored this concept in the Klotho mouse model of accelerated aging. Analysis of various tissues and organs from young Klotho mice revealed a decrease in stem cell number and an increase in progenitor cell senescence. Because klotho is a secreted protein, we postulated that klotho might interact with other soluble mediators of stem cells. We found that klotho bound to various Wnt family members. In a cell culture model, the Wnt-klotho interaction resulted in the suppression of Wnt biological activity. Tissues and organs from klotho-deficient animals showed evidence of increased Wnt signaling, and ectopic expression of klotho antagonized the activity of endogenous and exogenous Wnt. Both in vitro and in vivo, continuous Wnt exposure triggered accelerated cellular senescence. Thus, klotho appears to be a secreted Wnt antagonist and Wnt proteins have an unexpected role in mammalian aging. [ABSTRACT FROM AUTHOR]
- Published
- 2007
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36. Apc Tumor Suppressor Gene Is the “Zonation-Keeper” of Mouse Liver
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Benhamouche, Samira, Decaens, Thomas, Godard, Cécile, Chambrey, Régine, Rickman, David S., Moinard, Christophe, Vasseur-Cognet, Mireille, Kuo, Calvin J., Kahn, Axel, Perret, Christine, and Colnot, Sabine
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MOLECULES , *LIVER cells , *GENES , *ADENOVIRUSES , *GENETICS , *GLUTAMINE - Abstract
Summary: The molecular mechanisms by which liver genes are differentially expressed along a portocentral axis, allowing for metabolic zonation, are poorly understood. We provide here compelling evidence that the Wnt/β-catenin pathway plays a key role in liver zonation. First, we show the complementary localization of activated β-catenin in the perivenous area and the negative regulator Apc in periportal hepatocytes. We then analyzed the immediate consequences of either a liver-inducible Apc disruption or a blockade of Wnt signaling after infection with an adenovirus encoding Dkk1, and we show that Wnt/β-catenin signaling inversely controls the perivenous and periportal genetic programs. Finally, we show that genes involved in the periportal urea cycle and the perivenous glutamine synthesis systems are critical targets of β-catenin signaling, and that perturbations to ammonia metabolism are likely responsible for the death of mice with liver-targeted Apc loss. From our results, we propose that Apc is the liver “zonation-keeper” gene. [Copyright &y& Elsevier]
- Published
- 2006
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37. Selective Intratumoral Amplification of an Antiangiogenic Vector by an Oncolytic Virus Produces Enhanced Antivascular and Anti-tumor Efficacy.
- Author
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Thorne, Stephen H., Tam, Betty Y.Y., Kirn, David H., Contag, Christopher H., and Kuo, Calvin J.
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GENETIC vectors , *CANCER treatment , *GENE therapy , *NEOVASCULARIZATION - Abstract
The development of effective cancer therapy will require the simultaneous targeting of multiple steps in tumor development. We have previously described an antiangiogenic gene therapy vector, Ad Flk1-Fc, which expresses a soluble VEGF receptor capable of inhibiting tumor angiogenesis and growth. We have also described an oncolytic virus, dl922/947, whose replication and subsequent cytotoxicity are restricted to cancer cells with a loss of the G1–S cell cycle checkpoint. Here we have optimized methods for combining these therapies, yielding significantly greater anti-tumor effects than the respective monotherapies. In cultured tumor lines, co-infection with both Ad Flk1-Fc and dl922/947 allowed replication and repackaging of the replication-deficient Ad Flk1-Fc and enhanced soluble VEGF receptor expression. Similar repackaging and increased gene expression were demonstrated in vivo using bioluminescence imaging studies. Finally, coadministration of these therapeutic viral therapies in vivo produced significantly enhanced anti-tumor effects in colon HCT 116 and prostate PC-3 xenografts in mice. This increased therapeutic benefit correlated with replication of Ad Flk1-Fc viral genomes, increased intratumoral levels of Flk1-Fc protein, and decreased microvessel density, consistent with enhanced antiangiogenic activity.Molecular Therapy (2006) 13, 938–946; doi: 10.1016/j.ymthe.2005.12.010 [ABSTRACT FROM AUTHOR]
- Published
- 2006
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38. VEGF-dependent plasticity of fenestrated capillaries in the normal adult microvasculature.
- Author
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Kamba, Tomomi, Tam, Betty Y. Y., Hashizume, Hiroya, Haskell, Amy, Sennino, Barbara, Mancuso, Michael R., Norberg, Scott M., O'Brien, Shaun M., Davis, Rachel B., Gowen, Lori C., Anderson, Keith D., Thurston, Gavin, Joho, Shuji, Springer, Matthew L., Kuo, Calvin J., and McDonald, Donald M.
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VASCULAR endothelial growth factors , *GROWTH factors , *VASCULAR endothelium , *BLOOD vessels , *TUMORS , *PATHOLOGY - Abstract
Unlike during development, blood vessels in the adult are generally thought not to require VEOF for normal function. However, VEGF is a survival factor for many tumor vessels, and there are clues that some normal blood vessels may also depend on VEGF. In this study, we sought to identify which, if any, vascular beds in adult mice depend on VEGF for survival. Mice were treated with a small-molecule VEGF receptor (VEGFR) tyrosine kinase inhibitor or soluble VEOFRs for 1–3 wk. Blood vessels were assessed using immunohistochemistry or scanning or transmission electron microscopy. In a study of 17 normal organs after VEGF inhibition, we found significant capillary regression in pancreatic islets, thyroid, adrenal cortex, pituitary, choroid plexus, small-intestinal villi, and epididymal adipose tissue. The amount of regression was dose dependent and varied from organ to organ, with a maximum of 68% in thyroid, but was less in normal organs than in tumors in RIP-Tag2-transgenic mice or in Lewis lung carcinoma. VEOF-dependent capillaries were fenestrated, expressed high levels of both VEOFR-2 and VEGFR-3, and had normal pericyte coverage. Surviving capillaries in affected organs had fewer fenestrations and less VEGFR expression. All mice appeared healthy, but distinct physiological changes, including more efficient blood glucose handling, accompanied some regimens of VEGF inhibition. Strikingly, most capillaries in the thyroid grew back within 2 wk after cessation of treatment for 1 wk. Our findings of VEGF dependency of normal fenestrated capillaries and rapid regrowth after regression demonstrate the plasticity of the adult microvasculature. [ABSTRACT FROM AUTHOR]
- Published
- 2006
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39. Cellular changes in normal blood capillaries undergoing regression after inhibition of VEGF signaling.
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Baffert, Fabienne, Tom Le, Sennino, Barbara, Thurston, Gavin, Kuo, Calvin J., Hu-Lowe, Dana, and McDonald, Donald M.
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VASCULAR endothelial growth factors , *GROWTH factors , *CYTOKINES , *HUMAN growth hormone , *VASCULAR endothelium , *BLOOD vessels - Abstract
The vasculature of the embryo requires vascular endothelial growth factor (VEOF) during development, but most adult blood vessels lose VEGF dependence. However, some capillaries in the respiratory tract and selected other organs of adult mice regress after VEGF inhibition. The present study sought to identify the sequence of events and the fate of endothelial cells, pericytes, and vascular basement membrane during capillary regression in mouse tracheas after VEGF signaling was blocked with a VEGF-receptor tyrosine kinase inhibitor AG-013736 or soluble receptor construct (VEGF Trap or soluble adenoviral VEGFR-1). Within I day, patency was lost and fibrin accumulated in some tracheal capillaries. Apoptotic endothelial cells marked by activated caspase-3 were present in capillaries without blood flow. VEGF inhibition was accompanied by a 19% decrease in tracheal capillaries over 7 days and 30% over 21 days. During this period, desmin/NG2- immunoreactive pericytes moved away from regressing capillaries onto surviving vessels. Empty sleeves of basement membrane, left behind by regressing endothelial cells, persisted for about 2 wk and served as a scaffold for vascular regrowth after treatment ended. The amount of regrowth was limited by the number of surviving basement membrane sleeves. These findings demonstrate that, after inhibition of VEGF signaling, some normal capillaries regress in a systematic sequence of events initiated by a cessation of blood flow and followed by apoptosis of endothelial cells, migration of pericytes away from regressing vessels, and formation of empty basement membrane sleeves that can facilitate capillary regrowth. [ABSTRACT FROM AUTHOR]
- Published
- 2006
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40. Discordant effects of a soluble VEGF receptor on wound healing and angiogenesis.
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Jacobi, Johannes, Tam, Betty Y.Y., Sundram, Uma, von Degenfeld, Georges, Blau, Helen M., Kuo, Calvin J., and Cooke, John P.
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GROWTH factors , *VASCULAR endothelium , *WOUND healing , *NEOVASCULARIZATION , *GENETIC transformation , *IMMUNOHISTOCHEMISTRY - Abstract
Soluble receptors to vascular endothelial growth factor (VEGF) can inhibit its angiogenic effect. Since angiogenesis is involved in wound repair, we hypothesized that adenovirus-mediated gene transfer of a soluble form of VEGF receptor 2 (Flk-1) would attenuate wound healing in mice. C57Bl/6J and genetically diabetic (db/db) mice (each n=20) received intravenous (i.v.) injections of recombinant adenoviruses (109 PFU) encoding the ligand-binding ectodomain of VEGF receptor 2 (Flk-1) or cDNA encoding the murine IgG2a Fc fragment (each n=10). At 4 days after gene transfer, two full-thickness skin wounds (0.8?cm) were created on the dorsum of each animal. Wound closure was measured over 9-14 days after which wounds were resected for histological analysis. Prior to killing, fluorescent microspheres were systemically injected for quantitation of wound vascularity. Single i.v. injections of adenoviruses encoding soluble Flk-1 significantly decreased wound angiogenesis in both wild-type and diabetic mice. Fluorescence microscopy revealed a 2.0-fold (wild type) and 2.9-fold (diabetic) reduction in wound vascularity in Flk-1-treated animals (p<0.05). Impairment of angiogenesis was confirmed by CD31 immunohistochemistry. Interestingly, despite significant reductions in wound vascularity, wound closure was not grossly delayed. Our data indicates that while VEGF function is essential for optimal wound angiogenesis, it is not required for wound closure.Gene Therapy (2004) 11, 302-309. doi:10.1038/sj.gt.3302162 [ABSTRACT FROM AUTHOR]
- Published
- 2004
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41. Essential requirement for Wnt signaling in proliferation of adult small intestine and colon revealed by adenoviral expression of Dickkopf-1.
- Author
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Kuhnert, Frank, Davis, Corrine R., Wang, Hsiao-Ting, Chu, Pauline, Lee, Mark, Yuan, Jenny, Nusse, Roel, and Kuo, Calvin J.
- Subjects
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GASTROINTESTINAL mucosa , *MOLECULAR biology , *ADENOVIRUSES , *STEM cells , *CELL proliferation , *WNT proteins , *GROWTH factors - Abstract
Whereas the adult gastrointestinal epithelium undergoes tremendous self-renewal through active proliferation in crypt stem cell compartments, the responsible growth factors regulating this continuous proliferation have not been defined. The exploration of physiologic functions of Wnt proteins in adult organisms has been hampered by functional redundancy and the necessity for conditional inactivation strategies. Dickkopf-1 (Dkk1) is a potent secreted Wnt antagonist that interacts with Wnt coreceptors of the LRP family. To address the contribution of Wnt signaling to gastrointestinal epithelial proliferation, adenoviral expression of Dkk1 was used to achieve stringent, conditional, and reversible Wnt inhibition in adult animals. Adenovirus Dkk1 (Ad Dkk1) treatment of adult mice repressed expression of the Wnt target genes CD44 and EphB2 within 2 days in both small intestine and colon, indicating an extremely broad role for Wnt signaling in the maintenance of adult gastrointestinal gene expression. In parallel, Ad Dkk1 markedly inhibited proliferation in small intestine and colon, accompanied by progressive architectural degeneration with the loss of crypts, villi, and glandular structure by 7 days. Whereas decreased Dkk1 expression at later time points (>10 days) was followed by crypt and villus regeneration, which was consistent with a reversible process, substantial mortality ensued from colitis and systemic infection. These results indicate the efficacy of systemic expression of secreted Wnt antagonists as a general strategy for conditional inactivation of Wnt signaling in adult organisms and illustrate a striking reliance on a single growth factor pathway for the maintenance of the architecture of the adult small intestine and colon. [ABSTRACT FROM AUTHOR]
- Published
- 2004
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42. The NC1/Endostatin Domain of Caenorhabditis elegans Type XVIII Collagen Affects Cell Migration...
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Ackley, Brian D., Crew, Jennifer R., Elamaa, Harri, Pihlajaniemi, Tania, Kuo, Calvin J., and Kramer, James M.
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CELLULAR control mechanisms , *CELL migration , *COLLAGEN , *CAENORHABDITIS elegans - Abstract
Focuses on the influence of noncollagenous (NC1)/endostatin domain of Caenorhabditis elegans collagen XVIII homologue (CLE-1) on the regulation of cell and axon migrations. Multiple cell migration and axon guidance defects due to deletion of CLE-1 NC1 domain; Rescue of defects by ectopic expression of the NC1 domain.
- Published
- 2001
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43. HAT1 Coordinates Histone Production and Acetylation via H4 Promoter Binding.
- Author
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Gruber, Joshua J., Geller, Benjamin, Lipchik, Andrew M., Chen, Justin, Salahudeen, Ameen A., Ram, Ashwin N., Ford, James M., Kuo, Calvin J., and Snyder, Michael P.
- Subjects
- *
HISTONE acetylation , *HISTONE acetyltransferase , *HISTONES , *ACETYL group , *CHROMATIN , *PROMOTERS (Genetics) , *GLUCOSE metabolism , *GLATIRAMER acetate - Abstract
The energetic costs of duplicating chromatin are large and therefore likely depend on nutrient sensing checkpoints and metabolic inputs. By studying chromatin modifiers regulated by epithelial growth factor, we identified histone acetyltransferase 1 (HAT1) as an induced gene that enhances proliferation through coordinating histone production, acetylation, and glucose metabolism. In addition to its canonical role as a cytoplasmic histone H4 acetyltransferase, we isolated a HAT1-containing complex bound specifically at promoters of H4 genes. HAT1-dependent transcription of H4 genes required an acetate-sensitive promoter element. HAT1 expression was critical for S-phase progression and maintenance of H3 lysine 9 acetylation at proliferation-associated genes, including histone genes. Therefore, these data describe a feedforward circuit whereby HAT1 captures acetyl groups on nascent histones and drives H4 production by chromatin binding to support chromatin replication and acetylation. These findings have important implications for human disease, since high HAT1 levels associate with poor outcomes across multiple cancer types. • HAT1 is an EGF-stimulated acetyltransferase required for EGF-dependent growth • HAT1 holoenzyme specifically binds to histone H4 promoters • Histone H4 promoters contain an acetate-sensitive genomic element • HAT1 expression is associated with poor cancer outcomes in humans and mice Nascent histone H4 is acetylated by cytoplasmic histone acetyltransferase 1 (HAT1) and then de-acetylated after chromatin insertion, releasing free acetate. Gruber et al. discover that HAT1 also binds an acetate-sensitive promoter element in histone H4 genes. Therefore, histone production and acetylation are linked by HAT1 to drive cell division via acetyl-Co-A regeneration. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
44. Attribution of vascular phenotypes of the murine Egfl7 locus to the microRNA miR-126.
- Author
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Kuhnert, Frank, Mancuso, Michael R., Hampton, Jessica, Stankunas, Kryn, Asano, Tomoichiro, Chang-Zheng Chen, and Kuo, Calvin J.
- Subjects
- *
NUCLEIC acids , *RIBONUCLEASES , *NEOVASCULARIZATION , *BLOOD-vessel development , *GENOTYPE-environment interaction - Abstract
Intronic microRNAs have been proposed to complicate the design and interpretation of mouse knockout studies. The endothelial-expressed Egfl7/miR-126 locus contains miR-126 within Egfl7 intron 7, and angiogenesis deficits have been previously ascribed to Egfl7 gene-trap and lacZ knock-in mice. Surprisingly, selectively floxed Egfl7Δ and miR-126Δ alleles revealed that Egfl7Δ/Δ mice were phenotypically normal, whereas miR-126Δ/Δ mice bearing a 289-nt microdeletion recapitulated previously described Egfl7 embryonic and postnatal retinal vascular phenotypes. Regulation of angiogenesis by miR-126 was confirmed by endothelial-specific deletion and in the adult cornea micropocket assay. Furthermore, miR-126 deletion inhibited VEGF-dependent Akt and Erk signaling by derepression of the p85β subunit of PI3 kinase and of Spred1, respectively. These studies demonstrate the regulation of angiogenesis by an endothelial miRNA, attribute previously described Egfl7 vascular phenotypes to miR-126, and document inadvertent miRNA dysregulation as a complication of mouse knockout strategies. [ABSTRACT FROM AUTHOR]
- Published
- 2008
- Full Text
- View/download PDF
45. Inactivation of nuclear Wnt-²-catenin signaling limits blastocyst competency for implantation.
- Author
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Huirong Xie, Tranguch, Susanne, Xiangxu Jia, Hao Zhang, Das, Sanjoy K., Dey, Sudhansu K., Kuo, Calvin J., and Haibin Wang
- Subjects
- *
BLASTOCYST , *EMBRYOS , *TROPHOBLAST , *STEM cells , *LABORATORY mice - Abstract
The activation of the blastocyst, a process by which it gains competency to attach with the receptive uterus, is a prerequisite for successful implantation. However, the molecular basis of blastocyst activation remains largely unexplored. Combining molecular, pharmacological and physiological approaches, we show here that silencing of Wnt-β-catenin signaling in mice does not adversely affect the development of preimplantation embryos to blastocysts and uterine preparation for receptivity, but, remarkably, blocks blastocyst competency to implantation. Using the physiologically relevant delayed implantation model and trophoblast stem cells in culture, we further demonstrate that a coordinated activation of canonical Wnt-β-catenin signaling with attenuation of the non-canonical Wnt-RhoA signaling pathway ensures blastocyst competency to implantation. These findings constitute novel evidence that Wnt signaling is at least one pathway that determines blastocyst competency for implantation. [ABSTRACT FROM AUTHOR]
- Published
- 2008
- Full Text
- View/download PDF
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