技术资料

Current methods for producing immunoglobulin G (IgG) antibodies in engineered cells often require refolding steps or secretion across one or more biological membranes. Here,we describe a robust expression platform for biosynthesis of full-length IgG antibodies in the Escherichia coli cytoplasm. Synthetic heavy and light chains,both lacking canonical export signals,are expressed in specially engineered E. coli strains that permit formation of stable disulfide bonds within the cytoplasm. IgGs with clinically relevant antigen- and effector-binding activities are readily produced in the E. coli cytoplasm by grafting antigen-specific variable heavy and light domains into a cytoplasmically stable framework and remodelling the fragment crystallizable domain with amino-acid substitutions that promote binding to Fcγ receptors. The resulting cytoplasmic IgGs-named 'cyclonals'-effectively bypass the potentially rate-limiting steps of membrane translocation and glycosylation. View Publication

The advent of the human-induced pluripotent stem cell (hiPSC) technology has transformed biomedical research,providing new tools for human disease modeling,drug development,and regenerative medicine. To fulfill its unique potential in the cardiovascular field,efficient methods should be developed for high-resolution,large-scale,long-term,and serial functional cellular phenotyping of hiPSC-derived cardiomyocytes (hiPSC-CMs). To achieve this goal,we combined the hiPSC technology with genetically encoded voltage (ArcLight) and calcium (GCaMP5G) fluorescent indicators. Expression of ArcLight and GCaMP5G in hiPSC-CMs permitted to reliably follow changes in transmembrane potential and intracellular calcium levels,respectively. This allowed monitoring short- and long-term changes in action-potential and calcium-handling properties and the development of arrhythmias in response to several pharmaceutical agents and in hiPSC-CMs derived from patients with different inherited arrhythmogenic syndromes. Combining genetically encoded fluorescent reporters with hiPSC-CMs may bring a unique value to the study of inherited disorders,developmental biology,and drug development and testing. View Publication

Fluoride is a ubiquitous natural substance that is often used in dental products to prevent dental caries. The biphasic actions of fluoride imply that excessive systemic exposure to fluoride can cause harmful effects on embryonic development in both animal models and humans. However,insufficient information is available on the effects of fluoride on human embryonic stem cells (hESCs),which is a novel in vitro humanized model for analyzing the embryotoxicities of chemical compounds. Therefore,we investigated the effects of sodium fluoride (NaF) on the proliferation,differentiation and viability of H9 hESCs. For the first time,we showed that 1 mM NaF did not significantly affect the proliferation of hESCs but did disturb the gene expression patterns of hESCs during embryoid body (EB) differentiation. Higher doses of NaF (2 mM and above) markedly decreased the viability and proliferation of hESCs. The mode and underlying mechanism of high-dose NaF-induced cell death were further investigated by assessing the sub-cellular morphology,mitochondrial membrane potential (MMP),caspase activities,cellular reactive oxygen species (ROS) levels and activation of mitogen-activated protein kinases (MAPKs). High-dose NaF caused the death of hESCs via apoptosis in a caspase-mediated but ROS-independent pathway,coupled with an increase in the phospho-c-Jun N-terminal kinase (p-JNK) levels. Pretreatment with a pJNK-specific inhibitor (SP600125) could effectively protect hESCs from NaF-induced cell death in a concentration- and time-dependent manner. These findings suggest that NaF might interfere with early human embryogenesis by disturbing the specification of the three germ layers as well as osteogenic lineage commitment and that high-dose NaF could cause apoptosis through a JNK-dependent pathway in hESCs. View Publication

In Treponema denticola,a ribbon-like structure of cytoplasmic filaments spans the cytoplasm at all stages of the cell division process. Insertional inactivation was used as a first step to determine the function of the cytoplasmic filaments. A suicide plasmid was constructed that contained part of cfpA and a nonpolar erythromycin resistance cassette (ermF and ermAM) inserted near the beginning of the gene. The plasmid was electroporated into T. denticola,and double- crossover recombinants which had the chromosomal copy of cfpA insertionally inactivated were selected. Immunoblotting and electron microscopy confirmed the lack of cytoplasmic filaments. The mutant was further analyzed by dark-field microscopy to determine cell morphology and by the binding of two fluorescent dyes to DNA to assess the distribution of cellular nucleic acids. The cytoplasmic filament protein-deficient mutant exhibited pleiotropic defects,including highly condensed chromosomal DNA,compared to the homogeneous distribution of the DNA throughout the cytoplasm in a wild-type cell. Moreover,chains of cells are formed by the cytoplasmic filament- deficient mutant,and those cells show reduced spreading in agarose,which may be due to the abnormal cell length. The chains of cells and the highly condensed chromosomal DNA suggest that the cytoplasmic filaments may be involved in chromosome structure,segregation,or the cell division process in Treponema. View Publication

An immunochromatographic assay (Campy-ICA) using a newly generated single monoclonal antibody against a 15-kDa cell surface protein of Campylobacter jejuni was developed. When cell suspensions of 86 C. jejuni strains and 27 Campylobacter coli strains were treated with a commercially available bacterial protein extraction reagent and the resulting extracts were tested with the Campy-ICA,they all yielded positive results. The minimum detectable limits for the C. jejuni strains ranged from 1.8 x 10(4) to 8.2 x 10(5) CFU/ml of cell suspension,and those for the C. coli strains ranged from 1.4 x 10(5) to 4.6 x 10(6) CFU/ml of cell suspension. All 26 non-Campylobacter species tested yielded negative results with the Campy-ICA. To evaluate the ability of the Campy-ICA to detect C. jejuni and C. coli in human stool specimens,suspensions of 222 stool specimens from patients with acute gastroenteritis were treated with the bacterial protein extraction reagent,and the resulting extracts were tested with the Campy-ICA. The Campy-ICA results showed a sensitivity of 84.8% (28 of 33 specimens) and a specificity of 100% (189 of 189 specimens) compared to the results of isolation of C. jejuni and C. coli from the stool specimens by a bacterial culture test. The Campy-ICA was simple to perform and was able to detect Campylobacter antigen in a fecal extract within 15 min. These results suggest that Campy-ICA testing of fecal extracts may be useful as a simple and rapid adjunct to stool culture for detecting C. jejuni and C. coli in human stool specimens. View Publication

The trypsin-like serine protease marapsin is a member of the large protease gene cluster at human chromosome 16p13.3,which also contains the structurally related proteases testisin,tryptase epsilon,tryptase gamma,and EOS. To gain insight into the biological functions of marapsin,we undertook a detailed gene expression analysis. It showed that marapsin expression was restricted to tissues containing stratified squamous epithelia and was absent or only weakly expressed in all other tissues,including the pancreas. Marapsin was constitutively expressed in nonkeratinizing stratified squamous epithelia of human esophagus,tonsil,cervix,larynx,and cornea. In the keratinizing stratified squamous epidermis of skin,however,its expression was induced only during epidermal hyperproliferation,such as in psoriasis and in murine wound healing. In fact,marapsin was the second most strongly up-regulated protease in psoriatic lesions,where expression was localized to the upper region of the hyperplastic epidermis. Similarly,in the hyperproliferative epithelium of regenerating murine skin wounds,marapsin localized to the suprabasal layers,where keratinocytes undergo squamous differentiation. The transient up-regulation of marapsin,which closely correlated with re-epithelialization,was virtually absent in a genetic mouse model of delayed wound closure. These results suggested a function during the process of re-epithelialization. Furthermore,in reconstituted human epidermis,a model system of epidermal differentiation,members of the IL-20 subfamily of cytokines,such as IL-22,induced marapsin expression. Consistent with a physiologic role in marapsin regulation,IL-22 was also strongly expressed in re-epithelializing skin wounds. Marapsin's restricted expression,localization,and cytokine-inducible expression suggest a role in the terminal differentiation of keratinocytes in hyperproliferating squamous epithelia. View Publication

Megakaryocytopoiesis gives rise to platelets by proliferation and differentiation of lineage-specific progenitors,identified in vitro as Colony Forming Unit-Megakaryocytes (CFU-Mk). The aim of this study was to refine and optimize the in vitro Standard Operating Procedure (SOP) of the CFU-Mk assay for detecting drug-induced thrombocytopenia and to prevalidate a model for predicting the acute exposure levels that cause maximum tolerated decreases in the platelets count,based on the correlation with the maximal plasma concentrations (C max) in vivo. The assay was linear under the SOP conditions,and the in vitro endpoints (percentage of colonies growing) were reproducible within and across laboratories. The protocol performance phase was carried out testing 10 drugs (selected on the base of their recognised or potential in vivo haematotoxicity,according to the literature). Results showed that a relationship can be established between the maximal concentration in plasma (C max) and the in vitro concentrations that inhibited the 10-50-90 percent of colonies growth (ICs). When C max is lower than IC10,it is possible to predict that the chemicals have no direct toxicity effect on CFU-Mk and could not induce thrombocytopenia due to bone marrow damage. When the C max is higher than IC90 and/or IC50,thrombocytopenia can occur due to direct toxicity of chemicals on CFU-Mk progenitors. View Publication

The farnesyltransferase inhibitor tipifarnib exhibits modest activity against acute myelogenous leukemia. To build on these results,we examined the effect of combining tipifarnib with other agents. Tipifarnib inhibited signaling downstream of the farnesylated small G protein Rheb and synergistically enhanced etoposide-induced antiproliferative effects in lymphohematopoietic cell lines and acute myelogenous leukemia isolates. We subsequently conducted a phase 1 trial of tipifarnib plus etoposide in adults over 70 years of age who were not candidates for conventional therapy. A total of 84 patients (median age,77 years) received 224 cycles of oral tipifarnib (300-600 mg twice daily for 14 or 21 days) plus oral etoposide (100-200 mg daily on days 1-3 and 8-10). Dose-limiting toxicities occurred with 21-day tipifarnib. Complete remissions were achieved in 16 of 54 (30%) receiving 14-day tipifarnib versus 5 of 30 (17%) receiving 21-day tipifarnib. Complete remissions occurred in 50% of two 14-day tipifarnib cohorts: 3A (tipifarnib 600,etoposide 100) and 8A (tipifarnib 400,etoposide 200). In vivo,tipifarnib plus etoposide decreased ribosomal S6 protein phosphorylation and increased histone H2AX phosphorylation and apoptosis. Tipifarnib plus etoposide is a promising orally bioavailable regimen that warrants further evaluation in elderly adults who are not candidates for conventional induction chemotherapy. These clinical studies are registered at www.clinicaltrials.gov as NCT00112853. View Publication

Chronic myeloid leukemia (CML) is genetically characterized by the Philadelphia (Ph) chromosome,formed through a reciprocal translocation between chromosomes 9 and 22 and giving rise to the constitutively active tyrosine kinase P210 BCR/ABL1. Therapeutic strategies aiming for a cure of CML will require full eradication of Ph chromosome-positive (Ph(+)) CML stem cells. Here we used gene-expression profiling to identify IL-1 receptor accessory protein (IL1RAP) as up-regulated in CML CD34(+) cells and also in cord blood CD34(+) cells as a consequence of retroviral BCR/ABL1 expression. To test whether IL1RAP expression distinguishes normal (Ph(-)) and leukemic (Ph(+)) cells within the CML CD34(+)CD38(-) cell compartment,we established a unique protocol for conducting FISH on small numbers of sorted cells. By using this method,we sorted cells directly into drops on slides to investigate their Ph-chromosome status. Interestingly,we found that the CML CD34(+)CD38(-)IL1RAP(+) cells were Ph(+),whereas CML CD34(+)CD38(-)IL1RAP(-) cells were almost exclusively Ph(-). By performing long-term culture-initiating cell assays on the two cell populations,we found that Ph(+) and Ph(-) candidate CML stem cells could be prospectively separated. In addition,by generating an anti-IL1RAP antibody,we provide proof of concept that IL1RAP can be used as a target on CML CD34(+)CD38(-) cells to induce antibody-dependent cell-mediated cytotoxicity. This study thus identifies IL1RAP as a unique cell surface biomarker distinguishing Ph(+) from Ph(-) candidate CML stem cells and opens up a previously unexplored avenue for therapy of CML. View Publication

BACKGROUND: Cancer stem cells are presumed to have virtually unlimited proliferative and self-renewal abilities and to be highly resistant to chemotherapy,a feature that is associated with overexpression of ATP-binding cassette transporters. We investigated whether prolonged continuous selection of cells for drug resistance enriches cultures for cancer stem-like cells. METHODS: Cancer stem cells were defined as CD44+/CD24�?� cells that could self-renew (ie,generate cells with the tumorigenic CD44+/CD24�?� phenotype),differentiate,invade,and form tumors in vivo. We used doxorubicin-selected MCF-7/ADR cells,weakly tumorigenic parental MCF-7 cells,and MCF-7/MDR,an MCF-7 subline with forced expression of ABCB1 protein. Cells were examined for cell surface markers and side-population fractions by microarray and flow cytometry,with in vitro invasion assays,and for ability to form mammospheres. Xenograft tumors were generated in mice to examine tumorigenicity (n = 52). The mRNA expression of multidrug resistance genes was examined in putative cancer stem cells and pathway analysis of statistically significantly differentially expressed genes was performed. All statistical tests were two-sided. RESULTS: Pathway analysis showed that MCF-7/ADR cells express mRNAs from ABCB1 and other genes also found in breast cancer stem cells (eg,CD44,TGFB1,and SNAI1). MCF-7/ADR cells were highly invasive,formed mammospheres,and were tumorigenic in mice. In contrast to parental MCF-7 cells,more than 30% of MCF-7/ADR cells had a CD44+/CD24�?� phenotype,could self-renew,and differentiate (ie,produce CD44+/CD24�?� and CD44+/CD24+ cells) and overexpressed various multidrug resistance-linked genes (including ABCB1,CCNE1,and MMP9). MCF-7/ADR cells were statistically significantly more invasive in Matrigel than parental MCF-7 cells (MCF-7 cells = 0.82 cell per field and MCF-7/ADR = 7.51 cells per field,difference = 6.69 cells per field,95% confidence interval = 4.82 to 8.55 cells per field,P textless .001). No enrichment in the CD44+/CD24�?� or CD133+ population was detected in MCF-7/MDR. CONCLUSION: The cell population with cancer stem cell characteristics increased after prolonged continuous selection for doxorubicin resistance. View Publication

Osteoblasts play a crucial role in the hematopoietic stem cell (HSC) niche; however,an overall increase in their number does not necessarily promote hematopoiesis. Because the activity of osteoblasts and osteoclasts is coordinately regulated,we hypothesized that active bone-resorbing osteoclasts would participate in HSC niche maintenance. Mice treated with bisphosphonates exhibited a decrease in proportion and absolute number of Lin(-)cKit(+)Sca1(+) Flk2(-) (LKS Flk2(-)) and long-term culture-initiating cells in bone marrow (BM). In competitive transplantation assays,the engraftment of treated BM cells was inferior to that of controls,confirming a decrease in HSC numbers. Accordingly,bisphosphonates abolished the HSC increment produced by parathyroid hormone. In contrast,the number of colony-forming-unit cells in BM was increased. Because a larger fraction of LKS in the BM of treated mice was found in the S/M phase of the cell cycle,osteoclast impairment makes a proportion of HSCs enter the cell cycle and differentiate. To prove that HSC impairment was a consequence of niche manipulation,a group of mice was treated with bisphosphonates and then subjected to BM transplantation from untreated donors. Treated recipient mice experienced a delayed hematopoietic recovery compared with untreated controls. Our findings demonstrate that osteoclast function is fundamental in the HSC niche. View Publication

Current treatment options for advanced and hormone refractory prostate cancer are limited and responses to commonly used androgen pathway inhibitors are often unsatisfactory. Our recent results indicated that sodium ionophore monensin is one of the most potent and cancer-specific inhibitors in a systematic sensitivity testing of most known drugs and drug-like molecules in a panel of prostate cancer cell models. Because monensin has been extensively used in veterinary applications to build muscle mass in cattle,the link to prostate cancer and androgen signaling was particularly interesting. Here,we showed that monensin effects at nanomolar concentrations are linked to induction of apoptosis and potent reduction of androgen receptor mRNA and protein in prostate cancer cells. Monensin also elevated intracellular oxidative stress in prostate cancer cells as evidenced by increased generation of intracellular reactive oxygen species and by induction of a transcriptional profile characteristic of an oxidative stress response. Importantly,the antiproliferative effects of monensin were potentiated by combinatorial treatment with the antiandrogens and antagonized by antioxidant vitamin C. Taken together,our results suggest monensin as a potential well-tolerated,in vivo compatible drug with strong proapoptotic effects in prostate cancer cells,and synergistic effects with antiandrogens. Moreover,our data suggest a general strategy by which the effects of antiandrogens could be enhanced by combinatorial administration with agents that increase oxidative stress in prostate cancer cells. View Publication