技术资料

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

$\beta$-hemoglobinopathies such as sickle cell disease (SCD) and $\beta$-thalassemia result from mutations in the adult HBB ($\beta$-globin) gene. Reactivating the developmentally silenced fetal HBG1 and HBG2 ($\gamma$-globin) genes is a therapeutic goal for treating SCD and $\beta$-thalassemia 1 . Some forms of hereditary persistence of fetal hemoglobin (HPFH),a rare benign condition in which individuals express the $\gamma$-globin gene throughout adulthood,are caused by point mutations in the $\gamma$-globin gene promoter at regions residing {\~{}}115 and 200 bp upstream of the transcription start site. We found that the major fetal globin gene repressors BCL11A and ZBTB7A (also known as LRF) directly bound to the sites at -115 and -200 bp,respectively. Furthermore,introduction of naturally occurring HPFH-associated mutations into erythroid cells by CRISPR-Cas9 disrupted repressor binding and raised $\gamma$-globin gene expression. These findings clarify how these HPFH-associated mutations operate and demonstrate that BCL11A and ZBTB7A are major direct repressors of the fetal globin gene. View Publication

The mouse trachea is thought to contain two distinct stem cell compartments that contribute to airway repair-basal cells in the surface airway epithelium (SAE) and an unknown submucosal gland (SMG) cell type. Whether a lineage relationship exists between these two stem cell compartments remains unclear. Using lineage tracing of glandular myoepithelial cells (MECs),we demonstrate that MECs can give rise to seven cell types of the SAE and SMGs following severe airway injury. MECs progressively adopted a basal cell phenotype on the SAE and established lasting progenitors capable of further regeneration following reinjury. MECs activate Wnt-regulated transcription factors (Lef-1/TCF7) following injury and Lef-1 induction in cultured MECs promoted transition to a basal cell phenotype. Surprisingly,dose-dependent MEC conditional activation of Lef-1 in vivo promoted self-limited airway regeneration in the absence of injury. Thus,modulating the Lef-1 transcriptional program in MEC-derived progenitors may have regenerative medicine applications for lung diseases. View Publication

Pluripotent stem cell-derived cardiomyocyte grafts can remuscularize substantial amounts of infarcted myocardium and beat in synchrony with the heart,but in some settings cause ventricular arrhythmias. It is unknown whether human cardiomyocytes can restore cardiac function in a physiologically relevant large animal model. Here we show that transplantation of ∼750 million cryopreserved human embryonic stem cell-derived cardiomyocytes (hESC-CMs) enhances cardiac function in macaque monkeys with large myocardial infarctions. One month after hESC-CM transplantation,global left ventricular ejection fraction improved 10.6 ± 0.9{\%} vs. 2.5 ± 0.8{\%} in controls,and by 3 months there was an additional 12.4{\%} improvement in treated vs. a 3.5{\%} decline in controls. Grafts averaged 11.6{\%} of infarct size,formed electromechanical junctions with the host heart,and by 3 months contained ∼99{\%} ventricular myocytes. A subset of animals experienced graft-associated ventricular arrhythmias,shown by electrical mapping to originate from a point-source acting as an ectopic pacemaker. Our data demonstrate that remuscularization of the infarcted macaque heart with human myocardium provides durable improvement in left ventricular function. 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

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

Zika virus (ZIKV) infection is associated with microcephaly in fetuses,but the pathogenesis of ZIKV-related microcephaly is not well understood. Here we show that ZIKV infects the subventricular zone in human fetal brain tissues and that the tissue tropism broadens with the progression of gestation. Our research demonstrates also that intermediate progenitor cells (IPCs) are the main target cells for ZIKV. Post-mitotic committed neurons become susceptible to ZIKV infection as well at later stages of gestation. Furthermore,activation of microglial cells,DNA fragmentation,and apoptosis of infected or uninfected cells could be found in ZIKV-infected brain tissues. Our studies identify IPCs as the main target cells for ZIKV. They also suggest that immune activation after ZIKV infection may play an important role in the pathogenesis of ZIKV-related microcephaly. View Publication

Endothelial cells (ECs) line the luminal surface of blood vessels and have an active role in the recruitment of leukocytes,including immune cell activation. Regulatory T cells (Tregs) are immune suppressor cells that maintain peripheral tolerance and must interact with the endothelium as they traffic into tissue. We hypothesized that human ECs could modulate Tregs and their suppressor function. Cocultures of CD4+ T cells with human umbilical vein ECs (HUVECs) or dermal microvascular ECs (HDMECs) were conducted and analyzed for activation and proliferation after 72 and 120 h using flow cytometry. In monocyte-depleted cultures,human ECs were found to support CD4+ T cell proliferation in the presence of external mitogens phytohemagglutinin or anti-CD3/28 antibodies (aCD3/28). Activation was shown by CD25 expression in these cells that also transiently expressed the Treg transcription factor FOXP3. HUVECs supported the specific concurrent proliferation of both effector T cells and Tregs when cocultured with aCD3/28. Purified Tregs were also functionally activated by prior coculture with EC to suppress effector T (Teff) cell proliferation. Both direct coculture and indirect coculture of EC and Treg showed activation of the Treg suppressive phenotype. However,whereas HUVEC showed enhancement of suppression by both mechanisms,HDMEC only supported Treg suppressive activity via the contact-independent mechanism. In the contact-independent cultures,the soluble mediators IL-6,GM-CSF,or G-CSF released from ECs following interferon-gamma$ activation were not responsible for the enhanced Treg suppressor function. Following direct coculture,Treg expression of inhibitory receptors PD-1 and OX40 was elevated while activated EC expressed the counter ligands programmed death ligand (PD-L)1 and PD-L2. Therefore,human ECs have a role in supporting T cell proliferation and increasing Treg suppressor function. This ability of EC to enhance Treg function could offer novel targets to boost Treg activity during inflammatory disorders. 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

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

Natural killer (NK) cells play a pivotal role in the immune response against infections and malignant transformation,and adopted transfer of NK cells is thought to be a promising therapeutic approach for cancer patients. Previous reports describing the phenotypic features of canine NK cells have produced inconsistent results. Canine NK cells are still defined as non-B and non-T (CD3-CD21-) large granular lymphocytes. However,a few reports have demonstrated that canine NK cells share the phenotypic characteristics of T lymphocytes,and that CD3+CD5dimCD21- lymphocytes are putative canine NK cells. Based on our previous reports,we hypothesized that phenotypic modulation could occur between these two populations during activation. In this study,we investigated the phenotypic and functional differences between CD3+CD5dimCD21- (cytotoxic large granular lymphocytes) and CD3-CD5-CD21- NK lymphocytes before and after culture of peripheral blood mononuclear cells isolated from normal dogs. The results of this study show that CD3+CD5dimCD21- lymphocytes can be differentiated into non-B,non-T NK (CD3-CD5-CD21-TCRalpha$beta$-TCRgamma$delta$-GranzymeB+) lymphocytes through phenotypic modulation in response to cytokine stimulation. In vitro studies of purified CD3+CD5dimCD21- cells showed that CD3-CD5-CD21- cells are derived from CD3+CD5dimCD21- cells through phenotypic modulation. CD3+CD5dimCD21- cells share more NK cell functional characteristics compared with CD3-CD5-CD21- cells,including the expression of T-box transcription factors (Eomes,T-bet),the production of granzyme B and interferon-gamma$,and the expression of NK cell-related molecular receptors such as NKG2D and NKp30. In conclusion,the results of this study suggest that CD3+CD5dimCD21- and CD3-CD5-CD21- cells both contain a subset of putative NK cells,and the difference between the two populations may be due to the degree of maturation. View Publication

Retinal ganglion cells (RGCs) are the projection neurons of the retina and transmit visual information to postsynaptic targets in the brain. While this function is shared among nearly all RGCs,this class of cell is remarkably diverse,comprised of multiple subtypes. Previous efforts have identified numerous RGC subtypes in animal models,but less attention has been paid to human RGCs. Thus,efforts of this study examined the diversity of RGCs differentiated from human pluripotent stem cells (hPSCs) and characterized defined subtypes through the expression of subtype-specific markers. Further investigation of these subtypes was achieved using single-cell transcriptomics,confirming the combinatorial expression of molecular markers associated with these subtypes,and also provided insight into more subtype-specific markers. Thus,the results of this study describe the derivation of RGC subtypes from hPSCs and will support the future exploration of phenotypic and functional diversity within human RGCs. View Publication