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Long-lived multipotent stem cells (ISCs) at the base of intestinal crypts adjust their phenotypes to accommodate normal maintenance and post-injury regeneration of the epithelium. Their long life,lineage plasticity,and proliferative potential underlie the necessity for tight homeostatic regulation of the ISC compartment. In that context,the guanylate cyclase C (GUCY2C) receptor and its paracrine ligands regulate intestinal epithelial homeostasis,including proliferation,lineage commitment,and DNA damage repair. However,a role for this axis in maintaining ISCs remains unknown. Transgenic mice enabling analysis of ISCs (Lgr5-GFP) in the context of GUCY2C elimination (Gucy2c -/- ) were combined with immunodetection techniques and pharmacological treatments to define the role of the GUCY2C signaling axis in supporting ISCs. ISCs were reduced inGucy2c -/- mice,associated with loss of active Lgr5+cells but a reciprocal increase in reserve Bmi1+cells. GUCY2C was expressed in crypt base Lgr5+cells in which it mediates canonical cyclic (c) GMP-dependent signaling. Endoplasmic reticulum (ER) stress,typically absent from ISCs,was elevated throughout the crypt base inGucy2c -/- mice. The chemical chaperone tauroursodeoxycholic acid resolved this ER stress and restored the balance of ISCs,an effect mimicked by the GUCY2C effector 8Br-cGMP. Reduced ISCs inGucy2c -/- mice was associated with greater epithelial injury and impaired regeneration following sub-lethal doses of irradiation. These observations suggest that GUCY2C provides homeostatic signals that modulate ER stress and cell vulnerability as part of the machinery contributing to the integrity of ISCs. View Publication

A small subset of human cord blood CD34+ cells express endothelial protein C receptor (EPCR/CD201/PROCR) when exposed to the hematopoietic stem cell (HSC) self-renewal agonist UM171. In this article,we show that EPCR-positive UM171-treated cells,as opposed to EPCR-negative cells,exhibit robust multilineage repopulation and serial reconstitution ability in immunocompromised mice. In contrast to other stem cell markers,such as CD38,EPCR expression is maintained when cells are introduced in culture,irrespective of UM171 treatment. Although engineered overexpression of EPCR fails to reproduce the effects of UM171 on HSC activity,its expression is required for the repopulating activity of human HSCs. Altogether,our results indicate that EPCR is a reliable and cell culture-compatible marker of UM171-expanded human cord blood HSCs. View Publication

Reversing brain degeneration and trauma lesions will depend on cell therapy. Our previous work identified neural precursor cells derived from the skeletal muscle of Nestin-GFP transgenic mice,but their identity,origin,and potential survival in the brain are only vaguely understood. In this work,we show that Nestin-GFP+ progenitor cells share morphological and molecular markers with NG2-glia,including NG2,PDGFRα,O4,NGF receptor (p75),glutamate receptor-1(AMPA),and A2B5 expression. Although these cells exhibit NG2,they do not express other pericyte markers,such as α-SMA or connexin-43,and do not differentiate into the muscle lineage. Patch-clamp studies displayed outward potassium currents,probably carried through Kir6.1 channels. Given their potential therapeutic application,we compared their abundance in tissues and concluded that skeletal muscle is the richest source of predifferentiated neural precursor cells. We found that these cells migrate toward the neurogenic subventricular zone displaying their typical morphology and nestin-GFP expression two weeks after brain injection. For translational purposes,we sought to identify these neural progenitor cells in wild-type species by developing a DsRed expression vector under Nestin-Intron II control. This approach revealed them in nonhuman primates and aging rodents throughout the lifespan. View Publication

INTRODUCTION Complexins (CPLXs),initially identified in neuronal presynaptic terminals,are cytoplasmic proteins that interact with the soluble N-ethylmaleimide-sensitive factor attachment protein receptors (SNARE) complex to regulate the fusion of vesicles to the plasma membrane. Although much is known about CPLX function in neuronal synaptic vesicle exocytosis,their distribution and role in immune cells are still unclear. In this study,we investigated CPLX2 knockout (KO) mice to reveal the role of CPLXs in exocytosis of lymphocytes. METHODS We examined the expression of CPLXs and SNAREs in lymphocytes. To study the effect of CPLXs on the immune system in vivo,we analyzed the immune phenotype of CPLX2 KO mice. Furthermore,antibodies secretion from the peritoneal cavity,spleen,and bone marrow cells of wild-type (WT) and CPLX2 KO mice were determined. RESULTS CPLX2 was detected in B cells but not in T cells,while other CPLXs and SNAREs were expressed at a similar level in both B and T cells. To clarify the function of CPLX2 in B lymphocytes,serum concentrations of immunoglobulin G (IgG),IgA,IgM,and IgE were measured in WT and CPLX2 KO mice using enzyme-linked immunosorbent assay. The level of IgM,which mainly consists of natural antibodies,was higher in KO mice than that in WT mice,while the levels of other antibodies were similar in both types of mice. Additionally,we found that spontaneous secretion of IgM and IgG1 was enhanced from the splenic antibody-secreting cells (ASCs) of CPLX2 KO mice. CONCLUSION Our data suggest that CPLX2 inhibits spontaneous secretion of IgM and IgG1 from splenic ASCs. This study provides new insight into the mechanism of antibody secretion of ASCs. View Publication

The transmembrane death receptor Fas transduces apoptotic signals upon binding its ligand,FasL. Although Fas is highly expressed in cancer cells,insufficient cell surface Fas expression desensitizes cancer cells to Fas-induced apoptosis. Here,we show that the increase in Fas microaggregate formation on the plasma membrane in response to the inhibition of endocytosis sensitizes cancer cells to Fas-induced apoptosis. We used a clinically accessible Rho-kinase inhibitor,fasudil,that reduces endocytosis dynamics by increasing plasma membrane tension. In combination with exogenous soluble FasL (sFasL),fasudil promoted cancer cell apoptosis,but this collaborative effect was substantially weaker in nonmalignant cells. The combination of sFasL and fasudil prevented glioblastoma cell growth in embryonic stem cell-derived brain organoids and induced tumor regression in a xenograft mouse model. Our results demonstrate that sFasL has strong potential for apoptosis-directed cancer therapy when Fas microaggregate formation is augmented by mechano-inhibition of endocytosis. View Publication

T cells have been reported to play critical roles in preventing of microsporidia dissemination. However,there roles and functions of each subset remain unclear. Here in the study,we performed a thorough analysis of murine splenic T-cell response analysis via single-cell RNA sequencing during microsporidia E. cuniculi infection. We demonstrated that Type I T helper (Th1) cells,T follicular helper (Tfh) cells,effector CD8 + T cells and proliferating CD8 + T cells were activated and expanded after infection. Activated Th1 cells and Tfh cells presented significantly upregulated gene expression of Ifng and Il21,respectively. A subcluster of Th1 cells with high Csf1 expression was detected after infection. Subsets of activated CD8 + T cells were markedly enriched with high expression of cytotoxic-function related genes such as Gzma and Gzmb,whereas some active CD8 T cells were enriched with proliferation-function related genes Mki67 and Stmn1. Other subsets of T cells including NK T cells,Myb+ T cells,γδ T cells and Cxcr6+ T cells,were also analyzed in this study yet no expansion was observed. In summary,our findings provide in-depth and comprehensive insights into T-cell responses during microsporidia infection,which will be valuable for further investigations. This study provides a comprehensive landscape of mouse T cells responses during microsporidia infection at a single-cell resolution reporting that Th1,Tfh,effector and proliferating CD8 + T cell subsets were activated and expanded upon infection. View Publication

BACKGROUND In colorectal carcinoma (CRC),activation of the Raf/MEK/ERK signaling pathway is commonly observed. In addition,the commonly used 5FU-based chemotherapy in patients with metastatic CRC was found to enrich a subpopulation of CD26(+) cancer stem cells (CSCs). As activation of the Raf/MEK/ERK signaling pathway was also found in the CD26(+) CSCs and therefore,we hypothesized that an ATP-competitive pan-Raf inhibitor,Raf265,is effective in eliminating the cancer cells and the CD26(+) CSCs in CRC patients. METHODS HT29 and HCT116 cells were treated with various concentrations of Raf265 to study the anti-proliferative and apoptotic effects of Raf265. Anti-tumor effect was also demonstrated using a xenograft model. Cells were also treated with Raf265 in combination with 5FU to demonstrate the anti-migratory and invasive effects by targeting on the CD26(+) CSCs and the anti-metastatic effect of the combined treatment was shown in an orthotopic CRC model. RESULTS Raf265 was found to be highly effective in inhibiting cell proliferation and tumor growth through the inhibition of the RAF/MEK/ERK signaling pathway. In addition,anti-migratory and invasive effect was found with Raf265 treatment in combination with 5FU by targeting on the CD26(+) cells. Finally,the anti-tumor and anti-metastatic effect of Raf265 in combination with 5FU was also demonstrated. CONCLUSIONS This preclinical study demonstrates the anti-tumor and anti-metastatic activity of Raf265 in CRC,providing the basis for exploiting its potential use and combination therapy with 5FU in the clinical treatment of CRC. View Publication

BACKGROUND Self-renewing,chemoresistant breast cancer stem cells are believed to contribute significantly to cancer invasion,migration and patient relapse. Therefore,the identification of signaling pathways that regulate the acquisition of stem-like qualities is an important step towards understanding why patients relapse and towards development of novel therapeutics that specifically target cancer stem cell vulnerabilities. Recent studies identified a role for the aryl hydrocarbon receptor (AHR),an environmental carcinogen receptor implicated in cancer initiation,in normal tissue-specific stem cell self-renewal. These studies inspired the hypothesis that the AHR plays a role in the acquisition of cancer stem cell-like qualities. RESULTS To test this hypothesis,AHR activity in Hs578T triple negative and SUM149 inflammatory breast cancer cells were modulated with AHR ligands,shRNA or AHR-specific inhibitors,and phenotypic,genomic and functional stem cell-associated characteristics were evaluated. The data demonstrate that (1) ALDH(high) cells express elevated levels of Ahr and Cyp1b1 and Cyp1a1,AHR-driven genes,(2) AHR knockdown reduces ALDH activity by 80%,(3) AHR hyper-activation with several ligands,including environmental ligands,significantly increases ALDH1 activity,expression of stem cell- and invasion/migration-associated genes,and accelerates cell migration,(4) a significant correlation between Ahr or Cyp1b1 expression (as a surrogate marker for AHR activity) and expression of stem cell- and invasion/migration-associated gene sets is seen with genomic data obtained from 79 human breast cancer cell lines and over 1,850 primary human breast cancers,(5) the AHR interacts directly with Sox2,a master regulator of self-renewal; AHR ligands increase this interaction and nuclear SOX2 translocation,(6) AHR knockdown inhibits tumorsphere formation in low adherence conditions,(7) AHR inhibition blocks the rapid migration of ALDH(high) cells and reduces ALDH(high) cell chemoresistance,(8) ALDH(high) cells are highly efficient at initiating tumors in orthotopic xenografts,and (9) AHR knockdown inhibits tumor initiation and reduces tumor Aldh1a1,Sox2,and Cyp1b1 expression in vivo. CONCLUSIONS These data suggest that the AHR plays an important role in development of cells with cancer stem cell-like qualities and that environmental AHR ligands may exacerbate breast cancer by enhancing expression of these properties. View Publication

Directed hepatocyte differentiation from human induced pluripotent stem cells (iPSCs) potentially provides a unique platform for modeling liver genetic diseases and performing drug-toxicity screening in vitro. Wilson's disease is a genetic disease caused by mutations in the ATP7B gene,whose product is a liver transporter protein responsible for coordinated copper export into bile and blood. Interestingly,the spectrum of ATP7B mutations is vast and can influence clinical presentation (a variable spectrum of hepatic and neural manifestations),though the reason is not well understood. We describe the generation of iPSCs from a Chinese patient with Wilson's disease that bears the R778L Chinese hotspot mutation in the ATP7B gene. These iPSCs were pluripotent and could be readily differentiated into hepatocyte-like cells that displayed abnormal cytoplasmic localization of mutated ATP7B and defective copper transport. Moreover,gene correction using a self-inactivating lentiviral vector that expresses codon optimized-ATP7B or treatment with the chaperone drug curcumin could reverse the functional defect in vitro. Hence,our work describes an attractive model for studying the pathogenesis of Wilson's disease that is valuable for screening compounds or gene therapy approaches aimed to correct the abnormality. In the future,once relevant safety concerns (including the stability of the mature liver-like phenotype) and technical issues for the transplantation procedure are solved,hepatocyte-like cells from similarly genetically corrected iPSCs could be an option for autologous transplantation in Wilson's disease. View Publication