技术资料

Expression of miR-143 and miR-145 is reduced in hematopoietic stem/progenitor cells (HSPCs) of myelodysplastic syndrome patients with a deletion in the long arm of chromosome 5. Here we show that mice lacking miR-143/145 have impaired HSPC activity with depletion of functional hematopoietic stem cells (HSCs),but activation of progenitor cells (HPCs). We identify components of the transforming growth factor beta$ (TGFbeta$) pathway as key targets of miR-143/145. Enforced expression of the TGFbeta$ adaptor protein and miR-145 target,Disabled-2 (DAB2),recapitulates the HSC defect seen in miR-143/145-/- mice. Despite reduced HSC activity,older miR-143/145-/- and DAB2-expressing mice show elevated leukocyte counts associated with increased HPC activity. A subset of mice develop a serially transplantable myeloid malignancy,associated with expansion of HPC. Thus,miR-143/145 play a cell context-dependent role in HSPC function through regulation of TGFbeta$/DAB2 activation,and loss of these miRNAs creates a preleukemic state. View Publication

Human induced pluripotent stem cell-derived cardiomyocytes (hiPSC-CM) grown in engineered heart tissue (EHT) can be used for drug screening,disease modeling,and heart repair. However,the immaturity of hiPSC-CMs currently limits their use. Because mechanical loading increases during development and facilitates cardiac maturation,we hypothesized that afterload would promote maturation of EHTs. To test this we developed a system in which EHTs are suspended between a rigid post and a flexible one,whose resistance to contraction can be modulated by applying braces of varying length. These braces allow us to adjust afterload conditions over two orders of magnitude by increasing the flexible post resistance from 0.09 up to 9.2 mu$N/mu$m. After three weeks in culture,optical tracking of post deflections revealed that auxotonic twitch forces increased in correlation with the degree of afterload,whereas twitch velocities decreased with afterload. Consequently,the power and work of the EHTs were maximal under intermediate afterloads. When studied isometrically,the inotropy of EHTs increased with afterload up to an intermediate resistance (0.45 mu$N/mu$m) and then plateaued. Applied afterload increased sarcomere length,cardiomyocyte area and elongation,which are hallmarks of maturation. Furthermore,progressively increasing the level of afterload led to improved calcium handling,increased expression of several key markers of cardiac maturation,including a shift from fetal to adult ventricular myosin heavy chain isoforms. However,at the highest afterload condition,markers of pathological hypertrophy and fibrosis were also upregulated,although the bulk tissue stiffness remained the same for all levels of applied afterload tested. Together,our results indicate that application of moderate afterloads can substantially improve the maturation of hiPSC-CMs in EHTs,while high afterload conditions may mimic certain aspects of human cardiac pathology resulting from elevated mechanical overload. View Publication

Protein glycosylation provides proteomic diversity in regulating protein localization,stability,and activity; it remains largely unknown whether the sugar moiety contributes to immunosuppression. In the study of immune receptor glycosylation,we showed that EGF induces programmed death ligand 1 (PD-L1) and receptor programmed cell death protein 1 (PD-1) interaction,requiring beta$-1,3-N-acetylglucosaminyl transferase (B3GNT3) expression in triple-negative breast cancer. Downregulation of B3GNT3 enhances cytotoxic T cell-mediated anti-tumor immunity. A monoclonal antibody targeting glycosylated PD-L1 (gPD-L1) blocks PD-L1/PD-1 interaction and promotes PD-L1 internalization and degradation. In addition to immune reactivation,drug-conjugated gPD-L1 antibody induces a potent cell-killing effect as well as a bystander-killing effect on adjacent cancer cells lacking PD-L1 expression without any detectable toxicity. Our work suggests targeting protein glycosylation as a potential strategy to enhance immune checkpoint therapy. View Publication

CD34 is a transmembrane phosphoglycoprotein used to selectively enrich bone marrow in hematopoietic stem cells for transplantation. Treating rats with CD34+ cells derived from human umbilical cord blood before or after heat stroke has been shown to promote survival. We investigated whether CD34- human placenta-derived stem cells (PDMSCs) could improve survival following heat stroke in rats. Rats were subjected to heat stress (42°C for 98 min) to induce heat stroke. Intravenous administration of PDMSCs 1 day before or immediately after the onset of heat stroke improved survival by 60{\%} and 20{\%},respectively. Pre-treatment with CD34- PDMSCs protected against heat stroke injury more effectively than that treatment after injury. PDMSCs treatment attenuated cerebrovascular dysfunction,the inflammatory response,and lipid peroxidation. These data suggest human PDMSCs protect against heat stroke injury in rats. Moreover,these effects do not require the presence of CD34+ cells. View Publication

Nonhuman primate (NHP) models are more predictive than rodent models for developing induced pluripotent stem cell (iPSC)-based cell therapy,but robust and reproducible NHP iPSC-cardiomyocyte differentiation protocols are lacking for cardiomyopathies research. We developed a method to differentiate integration-free rhesus macaque iPSCs (RhiPSCs) into cardiomyocytes with {\textgreater}85{\%} purity in 10 days,using fully chemically defined conditions. To enable visualization of intracellular calcium flux in beating cardiomyocytes,we used CRISPR/Cas9 to stably knock-in genetically encoded calcium indicators at the rhesus AAVS1 safe harbor locus. Rhesus cardiomyocytes derived by our stepwise differentiation method express signature cardiac markers and show normal electrochemical coupling. They are responsive to cardiorelevant drugs and can be successfully engrafted in a mouse myocardial infarction model. Our approach provides a powerful tool for generation of NHP iPSC-derived cardiomyocytes amenable to utilization in basic research and preclinical studies,including in vivo tissue regeneration models and drug screening. View Publication

Nonsense mutations are present in 10{\%} of patients with CF,produce a premature termination codon in CFTR mRNA causing early termination of translation,and lead to lack of CFTR function. There are no currently available animal models which contain a nonsense mutation in the endogenous Cftr locus that can be utilized to test nonsense mutation therapies. In this study,we create a CF mouse model carrying the G542X nonsense mutation in Cftr using CRISPR/Cas9 gene editing. The G542X mouse model has reduced Cftr mRNA levels,demonstrates absence of CFTR function,and displays characteristic manifestations of CF mice such as reduced growth and intestinal obstruction. Importantly,CFTR restoration is observed in G542X intestinal organoids treated with G418,an aminoglycoside with translational readthrough capabilities. The G542X mouse model provides an invaluable resource for the identification of potential therapies of CF nonsense mutations as well as the assessment of in vivo effectiveness of these potential therapies targeting nonsense mutations. View Publication

Abnormal signaling pathways mediated by N-methyl-d-aspartate receptors (NMDARs) have been implicated in the pathogenesis of various CNS disorders and have been long considered as promising points of therapeutic intervention. However,few efforts have been previously described concerning evaluation of therapeutic modulators of NMDARs and their downstream pathways in human neurons with endogenous expression of NMDARs. In the present study,we assessed expression,functionality,and subunit composition of endogenous NMDARs in human induced pluripotent stem cell (hiPSC)-derived cortical neurons (iCell Neurons and iCell GlutaNeurons). We initially confirmed the expected pharmacological response of iCell Neurons and iCell GlutaNeurons to NMDA by patch-clamp recordings. Subsequent pharmacological interrogation using GluN2 subunit-selective antagonists revealed the predominance of GluN2B in both iCell Neurons and iCell GlutaNeurons. This observation was also supported by qRT-PCR and Western blot analyses of GluN2 subunit expression as well as pharmacological experiments using positive allosteric modulators with distinct GluN2 subunit selectivity. We conclude that iCell Neurons and iCell GlutaNeurons express functional GluN2B-containing NMDARs and could serve as a valuable system for development and validation of GluN2B-modulating pharmaceutical agents. View Publication

Functional evaluation assays using human induced pluripotent stem cell (hiPSC)-derived neurons can predict the convulsion toxicity of new drugs and the neurological effects of antiepileptic drugs. However,differences in responsiveness depending on convulsant type and antiepileptic drugs,and an evaluation index capable of comparing in vitro responses with in vivo responses are not well known. We observed the difference in synchronized burst patterns in the epileptiform activities induced by pentylentetrazole (PTZ) and 4-aminopryridine (4-AP) with different action mechanisms using multi-electrode arrays (MEAs); we also observed that 100 µM of the antiepileptic drug phenytoin suppressed epileptiform activities induced by PTZ,but increased those induced by 4-AP. To compare in vitro results with in vivo convulsive responses,frequency analysis of below 250 Hz,excluding the spike component,was performed. The in vivo convulsive firing enhancement of the high gamma$ wave and beta$ wave component were observed remarkably in in vitro hiPSC-derived neurons with astrocytes in co-culture. MEA measurement of hiPSC-derived neurons in co-culture with astrocytes and our analysis methods,including frequency analysis,appear effective for predicting convulsion toxicity,side effects,and their mechanism of action as well as the comparison of convulsions induced in vivo. View Publication

Advancing chimeric antigen receptor (CAR)-engineered adoptive T cells for the treatment of solid cancers is a major focus in the field of immunotherapy,given impressive recent clinical responses in hematological malignancies. Prostate cancer may be amenable to T cell-based immunotherapy since several tumor antigens,including prostate stem-cell antigen (PSCA),are widely over-expressed in metastatic disease. While antigen selectivity of CARs for solid cancers is crucial,it is problematic due to the absence of truly restricted tumor antigen expression and potential safety concerns with on-target off-tumor" activity. Here View Publication

Lgr5-expressing intestinal stem cells (ISCs) maintain continuous and rapid generation of the intestinal epithelium. Here we present evidence that dedifferentiation of committed enteroendocrine cells (EECs) contributes to maintenance of the epithelium under both basal conditions and in response to injury. Lineage tracing studies identified a subset of EECs that reside at +4 position for more than 2 weeks,most of which were BrdU-label-retaining cells. Under basal conditions,cells derived from these EECs grow from the bottom of the crypt to generate intestinal epithelium according to neutral drift kinetics that is consistent with dedifferentiation of mature EECs to ISCs. The lineage tracing of EECs demonstrated reserve stem cell properties in response to radiation-induced injury with the generation of reparative EEC-derived epithelial patches. Finally,the enterochromaffin (EC) cell was the predominant EEC type participating in these stem cell dynamics. These results provide novel insights into the +4 reserve ISC hypothesis,stem cell dynamics of the intestinal epithelium and novel insight in the development of EC-derived small intestinal tumors. View Publication

Availability of tumor and non-tumor patient-derived models would promote the development of more effective therapeutics for non-small cell lung cancer (NSCLC). Recently,conditionally reprogrammed cells (CRC) methodology demonstrated exceptional potential for the expansion of epithelial cells from patient tissues. However,the possibility to expand patient-derived lung cancer cells using CRC protocols is controversial. Here,we used CRC approach to expand cells from non-tumoral and tumor biopsies of patients with primary or metastatic NSCLC as well as pulmonary metastases of colorectal or breast cancers. CRC cultures were obtained from both tumor and non-malignant tissues with extraordinary high efficiency. Tumor cells were tracked in vitro through tumorigenicity assay,monitoring of tumor-specific genetic alterations and marker expression. Cultures were composed of EpCAM+ lung epithelial cells lacking tumorigenic potential. NSCLC biopsies-derived cultures rapidly lost patient-specific genetic mutations or tumor antigens. Similarly,pulmonary metastases of colon or breast cancer generated CRC cultures of lung epithelial cells. All CRC cultures examined displayed epithelial lung stem cell phenotype and function. In contrast,brain metastatic lung cancer biopsies failed to generate CRC cultures. In conclusion,patient-derived primary and metastatic lung cancer cells were negatively selected under CRC conditions,limiting the expansion to non-malignant lung epithelial stem cells from either tumor or non-tumor tissue sources. Thus,CRC approach cannot be applied for direct therapeutic testing of patient lung tumor cells,as the tumor-derived CRC cultures are composed of (non-tumoral) airway basal cells. View Publication

BACKGROUND & AIMS Inflammatory bowel diseases (IBD) increase risk for colorectal cancer. Mutations in the Mediterranean fever gene (MEFV or pyrin) are associated with hereditary autoinflammatory disease and severe IBD. Expression of MEFV,a sensor protein that the initiates assembly of the inflammasome complex,is increased in colon biopsies from patients with IBD. We investigated the role of pyrin in intestinal homeostasis in mice. METHODS Mefv-/- mice and C57/BL6 mice (controls) were given azoxymethane followed by multiple rounds of dextran sodium sulfate (DSS) to induce colitis and tumorigenesis. In some experiments,Mefv-/- mice were given injections of recombinant interleukin 18 (rIL18) or saline (control) during DSS administration. Colon tissues were collected at different time points during colitis development and analyzed by histology,immunohistochemistry,immunoblots,or ELISAs (to measure cytokines). Spleen and mesenteric lymph node were collected,processed,and analyzed by flow cytometry. Colon epithelial permeability was measured in mice with colitis by gavage of fluorescent dextran and quantification of serum levels. RESULTS MEFV was expressed in colons of control mice and expression increased during chronic and acute inflammation; high levels were detected in colon tumor and adjacent non-tumor tissues. Mefv-/- mice developed more severe colitis than control mice,with a greater extent of epithelial hyperplasia and a larger tumor burden. Levels of inflammatory cytokines (IL6) and chemokines were significantly higher in colons of Mefv-/- mice than control mice following colitis induction,whereas the level IL18,which depends on the inflammasome for maturation and release,was significantly lower in colons of Mefv-/- mice. Mefv-/- mice had increased epithelial permeability following administration of DSS than control mice,and loss of the tight junction proteins occludin and claudin-2 from intercellular junctions. STAT3 was activated (phosphorylated) in inflamed colon tissues from Mefv-/-,which also had increased expression of stem cell markers (OLFM4,BMI1,and MSI1) compared with colons from control mice. Administration of rIL18 to Mefv-/- mice reduced epithelial permeability,intestinal inflammation,the severity of colitis,and colon tumorigenesis. CONCLUSIONS In studies with DSS-induced colitis,we found that pyrin (MEFV) is required for inflammasome activation and IL18 maturation,which promote intestinal barrier integrity and prevent colon inflammation and tumorigenesis. Strategies to increase activity of MEFV or IL18 might be developed for the treatment of IBD and prevention of colitis-associated tumorigenesis. View Publication