Recapitulative haematopoietic development of human pluripotent stem cells in the absence of exogenous haematopoietic cytokines.

To improve the recapitulative quality of human pluripotent stem cell (hPSC) differentiation, we removed exogenous haematopoietic cytokines from the defined differentiation system. Here, we show that endogenous stimuli and VEGF are sufficient to induce robust hPSC-derived haematopoiesis, intensive generation of haematopoietic progenitors, maturation of blood cells and the emergence of definitive precursor cells including those that phenotypically identical to early human embryonic haematopoietic stem cells (HSCs). Moreover, the cytokine-free system produces significantly higher numbers of haematopoietic progenitors compared to the published protocols. The removal of cytokines revealed a broad developmental potential of the early blood cells, stabilized the hPSC-derived definitive precursors and led to spontaneous activation of inflammatory signalling. Our cytokine-free protocol is simple, efficient, reproducible and applicable for embryonic stem cells (ESCs) and induced PSCs. The spectrum of recapitulative features of the novel protocol makes the cytokine-free differentiation a preferred model for studying the early human haematopoietic development.

De novo reestablishment of gap junctional intercellular communications during reprogramming to pluripotency and differentiation.

Gap junctional intercellular communication (GJIC) has been described in embryonic stem cells (ESCs) and various somatic cells. GJIC has been implicated in the regulation of cell proliferation, self-renewal, and differentiation. Recently, a new type of pluripotent stem cells was generated by direct reprogramming of somatic cells. Here, for the first time, we show that during reprogramming events GJIC is re-established upon reaching complete reprogramming. The opposite process of cell differentiation from the pluripotent state leads to the disruption of GJIC between pluripotent and differentiated cell subsets. However, GJIC is subsequently re-established de novo within each differentiated cell type in vitro, forming communication compartments within a histotype. Our results provide the important evidence that reestablisment of functional gap junctions to the level similar to human ESCs is an additional physiological characteristic of somatic cell reprogramming to the pluripotent state and differentiation to the specific cell type.

Human embryonic stem cell lines isolation, cultivation, and characterization.

A large number of human embryonic stem cell (hESC) lines have been derived worldwide since the first hESC line establishment in 1998. Despite many common characteristics, most important of which is the pluripotency, hESC lines vary significantly in their transcriptional profiles, genetic, and epigenetic state. These differences may arise both from individual genetics of the cell lines and from variations in their handling such as isolation and cultivation. In order to minimize the latter differences, the standardized protocols of cultivation and inter-laboratory comprehensive studies should be performed. In this report, we summarized our experience of derivation and characterization of hESC lines as well as of adaptation of hESCs to novel cultivation protocols. We have successfully derived five hESC lines and characterized them by previously established criteria, including expression of specific markers and the capacity to differentiate both in vitro and in vivo. Four of these lines, namely hESM01-04, were initially derived using mouse fibroblasts as a feeder and currently are maintained under feeder-free, serum-free conditions using mTeSR1 and Matrigel. The fifth line, hESMK05 was derived in feeder-free, serum-free conditions using mTeSR1 and Matrigel. Cell lines retain their pluripotent status and normal karyotype for more than 70 passages and are available to the scientific community.

Novel noncoding antisense RNA transcribed from human anti-NOS2A locus is differentially regulated during neuronal differentiation of embryonic stem cells.

Here, we report on the discovery of a locus in the human genome, which evolved by gene duplication followed by an internal DNA inversion. This locus exhibits high sequence similarity to the gene for the inducible isoform of NOS protein (NOS2A) and is transcribed into a noncoding RNA containing a region of significant antisense homology with the NOS2A mRNA. We show that this antisense transcript (anti-NOS2A RNA) is expressed in different types of brain tumors, including meningiomas and glioblastomas. More importantly, we demonstrate that the expression profiles of the anti-NOS2A RNA and the NOS2A mRNA exhibit concurrent reciprocal changes in undifferentiated human embryonic stem cells (hESCs) and in hESCs induced to differentiate into neurogenic precursors such as neurospheres. As NOS2A has a role in neurogenesis, our results suggest that the anti-NOS2A RNA is involved in the regulation of neuronal differentiation of hESCs through the modulation of NOS2A gene expression.

Cancer/testis genes expression in human melanoma cell lines.

We analyzed the expression of 15 cancer/testis and four melanoma differentiation antigens in 21 metastatic melanoma cell lines using reverse transcriptase-polymerase chain reaction (RT-PCR) assay. On the basis of morphological characteristics, tumor cell lines were divided into three groups with high, moderate, and low grade of differentiation. Evaluation of gene expression and melanoma cell morphology has revealed a correlation between increased expression of cancer/testis genes and differentiation grade of cancer cells. The gene expression pattern for lymph node metastases and primary tumors exhibits the distribution of expression level and frequency similar to that found for established cell lines. Nevertheless, only 60% lymph node metastases or primary tumor tissue of randomly selected patients show marked expression of the most prominent cancer/testis genes, and almost 90% lesion tissue expresses at least one of 15 cancer/testis genes.

Efficient differentiation of hESCs into endothelial cells in vitro is secured by epigenetic changes.

Human embryonic stem cells (hESCs) are to be considered as a valuable source for regenerative medicine because of their capacity to differentiate into all cell types. We have developed an efficient culture system to differentiate hECSs into endothelial cells without the formation of embryoid bodies Establishing appropriate culture conditions with a cocktail of growth factors allowed us to differentiate hESCs directly to endothelial primary culture with about 50% efficiency. CD31 immunomagnetic cell sorting was used to purify derived endothelium from the primary culture of hESCs. Isolated endothelial cells expressed immunological markers (vWF, CD105), specific genes (VE-cadherin, KDR, GATA-2, GATA-3, eNOS), and formed cord-like structures on collagen matrix and in Matrigel assay. During differentiation to endothelial lineage promoter regions of the genes involved in specific cell fate determination and homeostasis (GATA-2,-3, and eNOS) underwent intensive hypomethylation which correlated with the gene expression. Overall our data demonstrate that direct differentiation of hESCs leads to endothelial cells that acquire epigenetic patterning similar to the functional endothelial cells of the organism.

Diverse epigenetic profile of novel human embryonic stem cell lines.

Human embryonic stem cells (hESCs) are a promising model for studying mechanisms of regulation of early development and differentiation. OCT4, NANOG, OCT4-related genes and some others were recently described to be important in pluripotency maintenance. Lesser is known about molecular mechanisms involved in their regulation. Apart from genetic regulation of gene expression epigenetic events, particularly methylation, play an important role in early development. Using RT-PCR we studied the expression of pluripotency-related genes OCT4, NANOG, DPPA3 and DPPA5 during hESCs differentiation to embryoid bodies. Analysis of methylation profiles of promoter or putative regulatory regions of the indicated genes demonstrated that expression of the pluripotency-maintaining genes correlated with their methylation status, whereas methylation of DPPA3 and DPPA5 varied between cell lines. We propose that DNA methylation underlies the developmental stage-specific mechanisms of pluripotency-related genes expression and reactivation and may have an impact on differentiation potential of hESC lines.

Immunotherapy with autologous tumor cells engineered to secrete Tag7/PGRP, an innate immunity recognition molecule.

BACKGROUND: Recent studies indicate that the innate component of immune defense plays an important role in the establishment of antigen-specific immune response. We have previously isolated a novel mouse gene tag7/PGRP that was shown to be involved in the innate component of the immune system, and its insect homologue is an upstream mediator of Toll signaling in Drosophila. METHODS: Transiently or stably genetically modified mouse tumor cell lines expressing Tag7 were used. Tumor growth rate and animal survival were analyzed. Possible effector cells involved in tumor suppression were detected immunohistochemically. RESULTS: Transfection of mammary gland adenocarcinoma cells with the tag7 cDNA did not alter their growth rate in vitro but diminished their tumorogenicity in vivo in syngeneic and immunodeficient animals. Increased incidence of apoptosis was registered in the modified tumors. Transient expression of Tag7 by mouse melanoma M3 cells elicited protective immunity against parental tumor cells. Immunohistochemical analysis revealed that tumors after immunization with the genetically modified cells were infiltrated with Mac1(+) cells, B220(+) cells, and NK cells. Using nude mice we observed rejection of modified cells, but did not detect memory formation. CONCLUSIONS: We can conclude that secretion of the Tag7 protein by genetically modified cells can induce mobilization of antigen-presenting cells and innate effectors. Memory mechanisms are mediated by T cell response. For the first time our results demonstrate that local secretion of Tag7-the molecule involved in innate immunity-may play an important role in the induction of effective antitumor response in mice.

Peptidoglycan recognition protein tag7 forms a cytotoxic complex with heat shock protein 70 in solution and in lymphocytes.

The peptidoglycan recognition protein Tag7 is shown to form a stable 1:1 complex with the major stress protein Hsp70. Neither protein is cytotoxic by itself, but their complex induces apoptotic death in several tumor-derived cell lines even at subnanomolar concentrations. The minimal part of Hsp70 needed to evoke cytotoxicity is residues 450-463 of its peptide-binding domain, but full cytotoxicity requires its ATPase activity; remarkably, Tag7 liberated from the complex at high ATP is not cytotoxic. The Tag7-Hsp70 complex is produced by tag7-transfected cells and by lymphokine-activated killers, being assembled within the cell and released into the medium through the Golgi apparatus by a mechanism different from the commonly known granule exocytosis. Thus, we demonstrate how a heat shock protein may perform functions clearly distinct from chaperoning or cell rescue and how peptidoglycan recognition proteins may be involved in innate immunity and anti-cancer defense.

Role of the pro-inflammatory cytokines tumor necrosis factor-alpha, interleukin-1 beta, interleukin-6 and interleukin-8 in the pathogenesis of the otitis media with effusion.

Inflammation in the middle ear mucosa, caused usually by bacterial and viral pathogens, is the primary event in the middle ear predisposing the development of otitis media with effusion (OME). Numerous inflammatory mediators have been identified in OME. However, cytokines play a central role as initiators, mediators and regulators of middle ear inflammation and subsequent molecular-pathological processes in middle ear tissues, leading to histopathological changes in the middle ear cavity and the pathogenesis of OME. In this article, we aim to present an overview of current research developments in the pro-inflammatory cytokine involvement in the aetiology of otitis media with effusion.