技术资料

Vitamin C (ascorbic acid (AA)) is very popular for its antioxidant properties. Consequently,many other important aspects of this multifaceted molecule are often underestimated or even ignored. In the present paper,we have tried to bring to the foreground some of these aspects,including the peculiarities of the AA biosynthetic pathway in different organisms,the remarkable function of AA as a co-substrate of many important dioxygenases,the role of AA-regenerating enzymes and the known pathways of AA catabolism,as well as the intriguing function of AA in gene expression. View Publication

Hepatocyte-like cells (HLCs) are derived from human pluripotent stem cells (hPSCs) in vitro,but differentiation protocols commonly give rise to a heterogeneous mixture of cells. This variability confounds the evaluation of in vitro functional assays performed using HLCs. Increased differentiation efficiency and more accurate approximation of the in vivo hepatocyte gene expression profile would improve the utility of hPSCs. Towards this goal,we demonstrate the purification of a subpopulation of functional HLCs using the hepatocyte surface marker asialoglycoprotein receptor 1 (ASGR1). We analyzed the expression profile of ASGR1-positive cells by microarray,and tested their ability to perform mature hepatocyte functions (albumin and urea secretion,cytochrome activity). By these measures,ASGR1-positive HLCs are enriched for the gene expression profile and functional characteristics of primary hepatocytes compared with unsorted HLCs. We have demonstrated that ASGR1-positive sorting isolates a functional subpopulation of HLCs from among the heterogeneous cellular population produced by directed differentiation. View Publication

Pancreatic ductal adenocarcinoma (PDA) is characterized by an extremely poor prognosis. An inflammatory microenvironment triggers the pronounced desmoplasia,the selection of cancer stem-like cells (CSCs) and therapy resistance. The anti-inflammatory drug aspirin is suggested to lower the risk for PDA and to improve the treatment,although available results are conflicting and the effect of aspirin to CSC characteristics and desmoplasia in PDA has not yet been investigated. We characterized the influence of aspirin on CSC features,stromal reactions and gemcitabine resistance. Four established and 3 primary PDA cell lines,non-malignant cells,3 patient tumor-derived CSC-enriched spheroidal cultures and tissues from patients who did or did not receive aspirin before surgery were analyzed using MTT assays,flow cytometry,colony and spheroid formation assays,Western blot analysis,antibody protein arrays,electrophoretic mobility shift assays (EMSAs),immunohistochemistry and in vivo xenotransplantation. Aspirin significantly induced apoptosis and reduced the viability,self-renewal potential,and expression of proteins involved in inflammation and stem cell signaling. Aspirin also reduced the growth and invasion of tumors in vivo,and it significantly prolonged the survival of mice with orthotopic pancreatic xenografts in combination with gemcitabine. This was associated with a decreased expression of markers for progression,inflammation and desmoplasia. These findings were confirmed in tissue samples obtained from patients who had or had not taken aspirin before surgery. Importantly,aspirin sensitized cells that were resistant to gemcitabine and thereby enhanced the therapeutic efficacy. Aspirin showed no obvious toxic effects on normal cells,chick embryos or mice. These results highlight aspirin as an effective,inexpensive and well-tolerated co-treatment to target inflammation,desmoplasia and CSC features PDA. View Publication

Visual Abstract Generation of human induced pluripotent stem cell (hiPSC)-derived motor neurons (MNs) offers an unprecedented approach to modeling movement disorders such as dystonia and amyotrophic lateral sclerosis. However,achieving survival poses a significant challenge when culturing induced MNs,especially when aiming to reach late maturation stages. Utilizing hiPSC-derived motor neurons and primary mouse astrocytes,we assembled two types of coculture systems: direct coculturing of neurons with astrocytes and indirect coculture using culture inserts that physically separate neurons and astrocytes. Both systems significantly enhance neuron survival. Compared with these two systems,no significant differences in neurodevelopment,maturation,and survival within 3 weeks,allowing to prepare neurons at maturation stages. Using the indirect coculture system,we obtained highly pure MNs at the late mature stage from hiPSCs. Transcriptomic studies of hiPSC-derived MNs showed a typical neurodevelopmental switch in gene expression from the early immature stage to late maturation stages. Mature genes associated with neurodevelopment and synaptogenesis are highly enriched in MNs at late stages,demonstrating that these neurons achieve maturation. This study introduces a novel tool for the preparation of highly pure hiPSC-derived neurons,enabling the determination of neurological disease pathogenesis in neurons at late disease onset stages through biochemical approaches,which typically necessitate highly pure neurons. This advancement is particularly significant in modeling age-related neurodegeneration. View Publication

Raman microspectroscopy is an attractive approach for chemical imaging of biological specimens,including live cells,without the need for chemi-selective stains. Using a microspectrometer,near-infrared Raman spectra throughout the range 663 cm(-1) to 1220 cm(-1) were obtained from colonies of CA1 human embryonic stem cells (hESCs) and CA1 cells that had been stimulated to differentiate for 3 weeks by 10% fetal bovine serum on gelatin. Distributions and intensities of spectral bands attributed to proteins varied significantly between undifferentiated and differentiated cells. Importantly,compared to proteins and lipids,the band intensities of nucleic acids were dominant in undifferentiated cells with a dominance-reversal in differentiated cells. Thus,we could identify intensity ratios of particular protein-related bands (e.g.,757 cm(-1) tryptophan) to nucleic acid bands (784 cm(-1) DNA/RNA composite) that were effective in discriminating between spectra of undifferentiated and differentiated cells. We observed no discernible negative effects due to the laser exposure in terms of morphology,proliferation,or pluripotency of the stem cells. We conclude that Raman microscopy and complementary data processing procedures provide a rapid,noninvasive approach that can distinguish hESCs from differentiated cells. This is the first report to identify specific Raman markers for the differentiation status of hESCs. View Publication

BACKGROUND Plasma cell neoplasms (PCNs) encompass a spectrum of disorders including monoclonal gammopathy of undetermined significance,smoldering myeloma,plasma cell myeloma,and plasma cell leukemia. Molecular subtypes have been defined by recurrent cytogenetic abnormalities and somatic mutations that are prognostic and predictive. Karyotype and fluorescence in situ hybridization (FISH) have historically been used to guide management; however,new technologies and markers raise the need to reassess current testing algorithms. METHODS We convened a panel of representatives from international clinical laboratories to capture current state-of-the-art testing from published reports and to put forward recommendations for cytogenomic testing of plasma cell neoplasms. We reviewed 65 papers applying FISH,chromosomal microarray (CMA),next-generation sequencing,and gene expression profiling for plasma cell neoplasm diagnosis and prognosis. We also performed a survey of our peers to capture current laboratory practice employed outside our working group. RESULTS Plasma cell enrichment is widely used prior to FISH testing,most commonly by magnetic bead selection. A variety of strategies for direct,short- and long-term cell culture are employed to ensure clonal representation for karyotyping. Testing of clinically-informative 1p/1q,del(13q) and del(17p) are common using karyotype,FISH and,increasingly,CMA testing. FISH for a variety of clinically-informative balanced IGH rearrangements is prevalent. Literature review found that CMA analysis can detect abnormalities in 85-100{\%} of patients with PCNs; more specifically,in 5-53{\%} (median 14{\%}) of cases otherwise normal by FISH and cytogenetics. CMA results in plasma cell neoplasms are usually complex,with alteration counts ranging from 1 to 74 (median 10-20),primarily affecting loci not covered by FISH testing. Emerging biomarkers include structural alterations of MYC as well as somatic mutations of KRAS,NRAS,BRAF,and TP53. Together,these may be measured in a comprehensive manner by a combination of newer technologies including CMA and next-generation sequencing (NGS). Our survey suggests most laboratories have,or are soon to have,clinical CMA platforms,with a desire to move to NGS assays in the future. CONCLUSION We present an overview of current practices in plasma cell neoplasm testing as well as an algorithm for integrated FISH and CMA testing to guide treatment of this disease. View Publication

Environmental influences and insults by reproductive toxicant exposure can lead to impaired spermatogenesis or infertility. Understanding how toxicants disrupt spermatogenesis is critical for determining how environmental factors contribute to impaired fertility. While current animal models are available,understanding of the reproductive toxic effects on human fertility requires a more robust model system. We recently demonstrated that human pluripotent stem cells can differentiate into spermatogonial stem cells/spermatogonia,primary and secondary spermatocytes,and haploid spermatids; a model that mimics many aspects of human spermatogenesis. Here,using this model system,we examine the effects of 2-bromopropane (2-BP) and 1,2,dibromo-3-chloropropane (DBCP) on in vitro human spermatogenesis. 2-BP and DBCP are non-endocrine disrupting toxicants that are known to impact male fertility. We show that acute treatment with either 2-BP or DBCP induces a reduction in germ cell viability through apoptosis. 2-BP and DBCP affect viability of different cell populations as 2-BP primarily reduces spermatocyte viability,whereas DBCP exerts a much greater effect on spermatogonia. Acute treatment with 2-BP or DBCP also reduces the percentage of haploid spermatids. Both 2-BP and DBCP induce reactive oxygen species (ROS) formation leading to an oxidized cellular environment. Taken together,these results suggest that acute exposure with 2-BP or DBCP causes human germ cell death in vitro by inducing ROS formation. This system represents a unique platform for assessing human reproductive toxicity potential of various environmental toxicants in a rapid,efficient,and unbiased format. View Publication

Induced pluripotent stem cell (iPSC)-derived cortical neurons potentially present a powerful new model to understand corticogenesis and neurological disease. Previous work has established that differentiation protocols can produce cortical neurons,but little has been done to characterize these at cellular resolution. In particular,it is unclear to what extent in vitro two-dimensional,relatively disordered culture conditions recapitulate the development of in vivo cortical layer identity. Single-cell multiplex reverse transcriptase-quantitative polymerase chain reaction (RT-qPCR) was used to interrogate the expression of genes previously implicated in cortical layer or phenotypic identity in individual cells. Totally,93.6% of single cells derived from iPSCs expressed genes indicative of neuronal identity. High proportions of single neurons derived from iPSCs expressed glutamatergic receptors and synaptic genes. And,68.4% of iPSC-derived neurons expressing at least one layer marker could be assigned to a laminar identity using canonical cortical layer marker genes. We compared single-cell RNA-seq of our iPSC-derived neurons to available single-cell RNA-seq data from human fetal and adult brain and found that iPSC-derived cortical neurons closely resembled primary fetal brain cells. Unexpectedly,a subpopulation of iPSC-derived neurons co-expressed canonical fetal deep and upper cortical layer markers. However,this appeared to be concordant with data from primary cells. Our results therefore provide reassurance that iPSC-derived cortical neurons are highly similar to primary cortical neurons at the level of single cells but suggest that current layer markers,although effective,may not be able to disambiguate cortical layer identity in all cells. View Publication

Cytosolic aldehyde dehydrogenase (ALDH),an enzyme responsible for oxidizing intracellular aldehydes,has an important role in ethanol,vitamin A,and cyclophosphamide metabolism. High expression of this enzyme in primitive stem cells from multiple tissues,including bone marrow and intestine,appears to be an important mechanism by which these cells are resistant to cyclophosphamide. However,although hematopoietic stem cells (HSC) express high levels of cytosolic ALDH,isolating viable HSC by their ALDH expression has not been possible because ALDH is an intracellular protein. We found that a fluorescent aldehyde,dansyl aminoacetaldehyde (DAAA),could be used in flow cytometry experiments to isolate viable mouse and human cells based on their ALDH content. The level of dansyl fluorescence exhibited by cells after incubation with DAAA paralleled cytosolic ALDH levels determined by Western blotting and the sensitivity of the cells to cyclophosphamide. Moreover,DAAA appeared to be a more sensitive means of assessing cytosolic ALDH levels than Western blotting. Bone marrow progenitors treated with DAAA proliferated normally. Furthermore,marrow cells expressing high levels of dansyl fluorescence after incubation with DAAA were enriched for hematopoietic progenitors. The ability to isolate viable cells that express high levels of cytosolic ALDH could be an important component of methodology for identifying and purifying HSC and for studying cyclophosphamide-resistant tumor cell populations. View Publication

BACKGROUND: The testing of cord blood (CB) progenitor and stem cell units for transplantation suitability involves enumeration of total nucleated cells before freezing. CD34+ cell counts may also be a means of determining suitability. Studies have been conducted to evaluate how specific storage conditions influence cell counts. STUDY DESIGN AND METHODS: CB units were processed by hydroxyethyl starch volume reduction. Cryopreserved-thawed samples were diluted 1:3 without washing. CD34+ cells were measured with three commercially available assay methods. In specific studies,apoptosis-indicating reagents were included. CB units were analyzed for nucleated cells,aldehyde dehydrogenase-containing cells,and progenitor colonies. RESULTS: CD34+ cell levels and nucleated cells were retained during storage in test tubes at 1 to 6 degrees C for 3 days. Cryopreserved-thawed samples showed a reduction in CD34+ cells relative to prefreeze levels with the largest decrease with the Stem-Kit (Beckman Coulter) restricted gating procedure. Prefreeze samples contained minimal numbers of presumed apoptotic cells detected with 7-aminoactinomycin D or SYTO16,but after cryopreservation-thawing there was an increase. Nucleated cell levels determined with a hematology analyzer or flow cytometry were reduced after thawing. Cryopreservation-thawing reduced the percentage of CD34+ cells positive for the presence of aldehyde dehydrogenase and the number of progenitor colonies. These differences were significant. CONCLUSION: These studies indicate that CD34+ cell counts were maintained when CB samples were stored at 1 to 6 degrees C in test tubes for 3 days. Cryopreservation-thawing resulted in changes in a number of parameters including the percentage of CD34+ cells that were aldehyde dehydrogenase(+) and the number of 7-aminoactinomycin D(+) cells and SYTO16(low) cells. View Publication

Human pluripotent stem cells (hPSCs) are proving to be a valuable source of endothelial cells (ECs),pericytes,and vascular smooth muscle cells (vSMCs). Although an increasing number of phenotypic markers are becoming available to determine the phenotypes of these cells in vitro,the ability to integrate and form functional vessels in the host organism,typically mouse,remains critical for the assessment of EC functional competence. However,current mouse models require relatively large numbers of cells that might be difficult to derive simultaneously from multiple hPSCs lines. Therefore,there is an urgent need for new functional assays that are robust and can be performed with small numbers of cells. Here we describe a novel zebrafish xenograft model to test functionality of hPSC-derived ECs. The assay can be performed in 10 days and requires only ˜100-400 human cells per embryo. Thus,the zebrafish xenograft model can be useful for the accurate and rapid assessment of functionality of hPSC-derived ECs in a lower vertebrate model that is widely viewed by regulatory authorities as a more acceptable alternative to adult mice. View Publication

As cyclin-dependent kinases (CDKs) regulate cell cycle progression and RNA transcription,CDKs are attractive targets for creating cancer cell treatments. In this study we investigated the effects of the small molecular agent NU6140 (inhibits CDK2 and cyclin A interaction) on human embryonic stem (hES) cells and embryonal carcinoma-derived (hEC) cells via the expression of transcription factors responsible for pluripotency. A multiparameter flow cytometric method was used to follow changes in the expression of NANOG,OCT4,and SOX2 together in single cells. Both hES and hEC cells responded to NU6140 treatment by induced apoptosis and a decreased expression of NANOG,OCT4,and SOX2 in surviving cells. A higher sensitivity to NU6140 application in hES than hEC cells was detected. NU6140 treatment arrested hES and hEC cells in the G2 phase and inhibited entry into the M phase as evidenced by no significant increase in histone 3 phosphorylation. When embryoid bodies (EBs) formed from NU6104 treated hES cells were compared to EBs from untreated hES cells differences in ectodermal,endodermal,and mesodermal lineages were found. The results of this study highlight the importance of CDK2 activity in maintaining pluripotency of hES and hEC cells and in differentiation of hES cells. View Publication