Testosterone exerts selective anti-inflammatory effects on human skin mast cells in a cell subset dependent manner

Androgens are known to exert anti-inflammatory effects but their impact on mast cells (MCs) remains to be determined. Here, we show that MCs isolated from human foreskin samples (male) and those from breast skin (female) express the androgen receptor, albeit with a 10-fold difference between the subsets. While fundamental MC properties (FcεRI, c-Kit, tryptase; histamine release upon FcεRI cross-linking) were unaffected or slightly reduced (chymase) by testosterone, the hormone had a more profound impact on the production of cytokines, with IL-6 being a target (reduction by 53%). Interestingly, this effect was limited to breast skin MCs (15 of 16 donors displayed this phenomenon), but was not reproduced by foreskin MCs. Collectively, effector functions of human skin MCs are modulated by androgens in a gene-selective and MC subset-specific fashion. Possibly, MCs from women are more susceptible to testosterone. We also demonstrate that MC IL-6 production is highly variable among individuals.

Pearl extract enhances the migratory ability of fibroblasts in a wound healing model

CONTEXT

For 2000 years, traditional Chinese medicine has been used as a remedy for general health improvement, including the fight against aging. Pearl powder has recently been used as a health food that has antioxidant, antiaging, antiradioactive, and tonic activities for cells; it is also applied to cure aphthous ulcer, gastric ulcer, and duodenal ulcer on clinical therapy. In addition, the mother of pearl, nacre, could enhance the cell adhesion and tissue regeneration of skin fibroblasts.

OBJECTIVE

Fibroblast is regarded as indispensable in the processes of wound healing. Therefore, the effect of pearl extract (PL) on fibroblasts is investigated in this study.

MATERIALS AND METHODS

PL is produced by a room temperature super extraction system (Taiwan patent no. I271 220). DMEM medium containing PL (300 μg/mL) was used to examine the effect of migration-promoting potential on human fibroblast cell line or human primary fibroblast cells in a wound healing model in vitro.

RESULTS

Medium containing PL (300 μg/mL) demonstrated that the migratory cell numbers of fibroblasts were three times more than that without PL, and mRNA expression of collagen type III was higher than in collagen type I in fibroblasts. It revealed a migration-promoting potential of human fibroblasts in a wound healing model in vitro.

DISCUSSION AND CONCLUSION

The present study found that the migration-promoting effect in PL, which could be a supplement in cell culture. These data suggest PL could be useful for enhancing the wound healing of fibroblasts.

The effect of silymarin (Silybum marianum) on human skin fibroblasts in an in vitro wound healing model

CONTEXT

Silymarin, a flavonolignan from Silybum marianum (L.) Gaertn. (Asteraceae), has been reported to have antioxidant and anti-inflammatory properties. Therefore, it may be worthwhile to study the effect of silymarin on wound healing.

OBJECTIVE

To evaluate the effect of silymarin on human fibroblast cells in an in vitro model of wound healing.

MATERIALS AND METHODS

Human fibroblast cells were treated with different concentrations (4.5, 9, 18, 36 µg/mL) of silymarin. The effects of silymarin on cell viability, proliferation, collagen synthesis, and expression of cyclooxygenase-2 (COX-2) and inducible nitric oxide synthetase (iNOS) were assessed by 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide, 5-bromo-2'-deoxy-uridine, hydroxyproline analysis and real-time PCR, respectively. The effect of silymarin on cellular antioxidant status was determined by protection against hydrogen peroxide (H₂O₂)-induced cell injury and free radical scavenging activity (ABTS assay) of the cells.

RESULTS

Results of the present study indicate that pretreatment of fibroblast cells with silymarin significantly protected cells against H₂O₂-induced injury (p < 0.05). After an 18 h treatment of cells with 36 µg/mL silymarin, total antioxidant capacity of cells significantly increased (p < 0.05). Furthermore, pretreatment of human fibroblast cells with silymarin significantly inhibited lipopolysaccharide (LPS)-induced COX-2 mRNA expression (p < 0.001). There was no significant difference in fibroblast proliferation and collagen synthesis between treatment and control groups (p > 0.05).

DISCUSSION AND CONCLUSION

Silymarin may be useful as a therapeutic agent for the treatment of cutaneous wounds through its antioxidation and anti-inflammation effects.

"Trooping the color": restoring the original donor skin color by addition of melanocytes to bioengineered skin analogs

PURPOSE

Autologous skin substitutes to cover large skin defects are used since several years. Melanocytes, although essential for solar protection and pigmentation of skin, are not yet systematically added to such substitutes. In this experimental study, we reconstructed melanocyte-containing dermo-epidermal skin substitutes from donor skins of different skin pigmentation types and studied them in an animal model. Features pertinent to skin color were analyzed and compared in both skin substitutes and original donor skin.

METHODS

Keratinocytes, melanocytes, and fibroblast were isolated, cultured, and expanded from skin biopsies of light- and dark-pigmented patients. For each donor, melanocytes and keratinocytes were seeded in different ratios (1:1, 1:5, 1:10) onto collagen gels previously populated with autologous fibroblasts. Skin substitutes were then transplanted onto full-thickness wounds of immuno-incompetent rats. After 8 weeks, macroscopic and microscopic analyses were conducted with regard to skin color and architecture.

RESULTS

Chromameter evaluation revealed that skin color of reconstructed light- and dark-pigmented skin was very similar to donor skin, independent of which melanocyte/keratinocyte ratio was added. Histological analyses of the skin analogs confirmed these findings.

CONCLUSION

These data suggest that adding autologous melanocytes to bioengineered dermo-epidermal skin analogs can sustainably restore the patients' native skin color.

TaqMan® OpenArray® high-throughput transcriptional analysis of human embryonic and induced pluripotent stem cells

It is widely accepted that somatic cells can be reprogrammed by a set of transcription factors to become embryonic stem cell-like: These reprogrammed cells, induced pluripotent stem cells (iPSCs), are nearly identical to embryonic stem cells (ESCs), because both have the capacity to self-renew and to form all cellular lineages of the body. Transcriptional differences between ESCs, iPSCs, and fibroblasts can be analyzed by quantitative PCR (qPCR) using TaqMan(®) Gene Expression assays, a widely used tool for rapid analysis of different cell types. In this chapter, we describe the OpenArray(®) platform which generates qPCR data from high-throughput instrumentation. We examined the gene signature profiles of ESCs, fibroblasts, and iPSCs with a TaqMan(®) OpenArray(®) Human Stem Cell Panel containing 631 TaqMan(®) Gene Expression assays that represent pathways involved in self-renewal, pluripotency, lineage patterning, transcriptional networks, stem cell differentiation, and development.

Methods for culturing human embryonic stem cells on feeders

Human embryonic stem cells can be cultured and maintained on fibroblast feeder cells of murine or human origin. Thorough protocols are provided for the growth and maintenance of human embryonic stem cells on either feeder cell type.

IL-27 Regulates IL-18 binding protein in skin resident cells

IL-18 is an important mediator involved in chronic inflammatory conditions such as cutaneous lupus erythematosus, psoriasis and chronic eczema. An imbalance between IL-18 and its endogenous antagonist IL-18 binding protein (BP) may account for increased IL-18 activity. IL-27 is a cytokine with dual function displaying pro- and anti-inflammatory properties. Here we provide evidence for a yet not described anti-inflammatory mode of action on skin resident cells. Human keratinocytes and surprisingly also fibroblasts (which do not produce any IL-18) show a robust, dose-dependent and highly inducible mRNA expression and secretion of IL-18BP upon IL-27 stimulation. Other IL-12 family members failed to induce IL-18BP. The production of IL-18BP peaked between 48-72 h after stimulation and was sustained for up to 96 h. Investigation of the signalling pathway showed that IL-27 activates STAT1 in human keratinocytes and that a proximal GAS site at the IL-18BP promoter is of importance for the functional activity of IL-27. The data are in support of a significant anti-inflammatory effect of IL-27 on skin resident cells. An important novel property of IL-27 in skin pathobiology may be to counter-regulate IL-18 activities by acting on keratinocytes and importantly also on dermal fibroblasts.

Early and late steps in telomere overhang processing in normal human cells: the position of the final RNA primer drives telomere shortening

Telomere overhangs are essential for telomere end protection and telomerase extension, but how telomere overhangs are generated is unknown. Leading daughter strands synthesized by conventional semiconservation DNA replication are initially blunt, while lagging daughter strands are shorter by at least the size of the final RNA primer, which is thought to be located at extreme chromosome ends. We developed a variety of new approaches to define the steps in the processing of these overhangs. We show that the final lagging RNA primer is not terminal but is randomly positioned ~70-100 nucleotides from the ends and is not removed for more than an hour. This identifies an important intrinsic step in replicative aging. Telomeric termini are processed in two distinct phases. During the early phase, which occupies 1-2 h following replication of the duplex telomeric DNA, several steps occur on both leading and lagging daughters. Leading telomere processing remains incomplete until late S/G2, when the C-terminal nucleotide is specified-referred to as the late phase. These observations suggest the presence of previously unsuspected complexes and signaling events required for the replication of the ends of human chromosomes.

Cytotoxic evaluation of alkaloids and isoflavonoids from the Australian tree Erythrina vespertilio

A new glucoalkaloid, vespertilioside, together with three known alkaloids, including 11- β-methoxyglucoerysovine, erysotrine, and hypaphorine, were isolated from the fruits of E. vespertilio Benth. In addition, three known isoflavonoids, including phaseollin, alpiniumisoflavone, and phaseollidin, were identified from the plant stems. The structures of compounds were determined by 1D/2D NMR and mass experiments. The cytotoxic activity of all compounds was evaluated against a metastatic prostate cancer cell line (PC3) and neonatal foreskin fibroblast (NFF) using a real-time label-free cell analyser. Among the tested compounds, phaseollidin showed cytotoxic activities against PC3 (IC (50) = 8.83 ± 1.87 µM) and NFF (0.64 ± 0.37 µM) cell lines.

Human cytomegalovirus clinical strain-specific microRNA miR-UL148D targets the human chemokine RANTES during infection

The human cytomegalovirus (HCMV) clinical strain Toledo and the attenuated strain AD169 exhibit a striking difference in pathogenic potential and cell tropism. The virulent Toledo genome contains a 15-kb segment, which is present in all virulent strains but is absent from the AD169 genome. The pathogenic differences between the 2 strains are thought to be associated with this additional genome segment. Cytokines induced during viral infection play major roles in the regulation of the cellular interactions involving cells of the immune and inflammatory systems and consequently determine the pathogenic outcome of infection. The chemokine RANTES (Regulated on activation, normal T-cell expressed and secreted) attracts immune cells during inflammation and the immune response, indicating a role for RANTES in viral pathogenesis. Here, we show that RANTES was downregulated in human foreskin fibroblast (HFF) cells at a later stage after infection with the Toledo strain but not after infection with the AD169 strain. miR-UL148D, the only miRNA predicted from the UL/b' sequences of the Toledo genome, targeted the 3′-untranslated region of RANTES and induced degradation of RANTES mRNA during infection. While wild-type Toledo inhibited expression of RANTES in HFF cells, Toledo mutant virus in which miR-UL148D is specifically abrogated did not repress RANTES expression. Furthermore, miR-UL148D-mediated downregulation of RANTES was inhibited by treatment with a miR-UL148D-specific inhibitor designed to bind to the miR-UL148D sequence via an antisense mechanism, supporting the potential value of antisense agents as therapeutic tools directed against HCMV. Our findings identify a viral microRNA as a novel negative regulator of the chemokine RANTES and provide clues for understanding the pathogenesis of the clinical strains of HCMV.

Unlike the attenuated HCMV strain AD169, the clinical isolates of HCMV, including the Toledo strain, are virulent and can cause disease in healthy adults. Toledo differs from AD169 in that Toledo contains a 15-kb DNA segment, encoding at least 19 ORFs and a single microRNA known as miR-UL148D. This 15-kb segment is believed to be a major determinant of the virulence and pathogenicity of the Toledo clinical strain. The CC–chemokine RANTES recruits immune cells during viral infection, suggesting that it may play a role in virus-related diseases. Here, we show that RANTES mRNA was degraded in human foreskin fibroblast cells during infection with Toledo but not during infection with AD169. The degradation of RANTES mRNA was mediated by miR-UL148D, the only viral microRNA predicted from the 15–kb segment of the Toledo genome. Accordingly, the levels of secreted RANTES in infected cells with ToledoΔmiR-UL148D in which miR-UL148D was deleted were higher than those in infected cells with Toledo. Our results reveal that a viral microRNA could be a novel potential therapeutic target and provide important insights into understanding the differences in pathogenic potential between clinical and attenuated strains.

Feeder layer- and animal product-free culture of neonatal foreskin keratinocytes: improved performance, usability, quality and safety

Since 1987, keratinocytes have been cultured at the Queen Astrid Military Hospital. These keratinocytes have been used routinely as auto and allografts on more than 1,000 patients, primarily to accelerate the healing of burns and chronic wounds. Initially the method of Rheinwald and Green was used to prepare cultured epithelial autografts, starting from skin samples from burn patients and using animal-derived feeder layers and media containing animal-derived products. More recently we systematically optimised our production system to accommodate scientific advances and legal changes. An important step was the removal of the mouse fibroblast feeder layer from the cell culture system. Thereafter we introduced neonatal foreskin keratinocytes (NFK) as source of cultured epithelial allografts, which significantly increased the consistency and the reliability of our cell production. NFK master and working cell banks were established, which were extensively screened and characterised. An ISO 9001 certified Quality Management System (QMS) governs all aspects of testing, validation and traceability. Finally, as far as possible, animal components were systematically removed from the cell culture environment. Today, quality controlled allograft production batches are routine and, due to efficient cryopreservation, stocks are created for off-the-shelf use. These optimisations have significantly increased the performance, usability, quality and safety of our allografts. This paper describes, in detail, our current cryopreserved allograft production process.

[Cell technologies and the development of skin substitutes]

Large skin lesions might be of different cause and sometime resistant to the conventional and surgical treatment. For many years, skin grafting used to serve one of the most important methods to treat large and deep skin lesions. However, a limited availability of the substrate for transplantation restricts wider application of the approach. Utilization of wound covers and skin replacements of various types (including synthetic, biological and biosynthetic ones) provides an alternative. Skin substitutes--biosynthetic covers of the complex structure--constitute the most important niche in a wide spectrum of wound covers developed and actively utilized by today. Cell substrates used in the former include dermal fibroblasts, neonatal foreskin fibroblasts and keratinocytes. In the current review, key properties of the modern skin substitutes, structure features of the most widespread types. and principle of the work with the particular cell types are analyzed. Comparative analysis of the efficiency of wound covers is provided.

Establishment of polycystic ovary syndrome-derived human embryonic stem cell lines

BACKGROUND

Recently, human embryonic stem cells (hESCs) of some genetic diseases have been established, but little research has been done on polycystic ovary syndrome (PCOS)-derived hESCs. The establishment of PCOS-derived hESCs provides a biological basis for exploring the pathogenesis, gene mapping and gene therapy of PCOS.

METHODS

Discarded fresh embryos were collected and cultured until the blastocyst stage, and then inner cell masses (ICM) were isolated by mechanical methods and incubated in the mixed feeder layer containing human stem cell medium. hESCs were identified whether to maintain normal karyotype and pluripotency by alkaline phosphates (AKP), stage-specific embryonic antigen-4 (SSEA-4), NANOG, SOX2 and TRA-1-60, octamer binding protein 4(OCT-4), and in vivo and in vitro differentiation.

RESULTS

Of the 11 passaged ICM, nine showed adherent growths within 48 h with an adherence rate of 81.8% (9/11). Five PCOS-derived hESCs were established and all of them have the characteristics of pluripotent differentiation. One was from 2PN embryo which was retarded in the cleavage stage, one was from 1PN embryo and others were from 0PN embryo. They were named p-hES-1, p-hES-2, p-hES-3, p-hES-4, p-hES-5, respectively.

CONCLUSION

We provide biological models for studying the pathogenesiss of PCOS.

[Comparative characteristics of new mesenchymal stem cell lines derived from human embryonic stem cells, bone marrow and foreskin]

New nonimmortalized fibroblast-like cell lines SC5-MSC and SC3a-MSC, FetMSC, FRSN were obtained from human embryonic stem cells (ESC), bone marrow of a 5-6-days embryo and foreskin of a 3-years-old boy, respectively. All the lines are successfully used as the feeder at human ESC cultivation. It is determined that the average cell population doublings time varies from 25.5 h for ISC5-MSC to 38.8 h for SC3a-MSC. Active proliferation of all the lines is also shown by the corresponding growth curves. Numerical and structural karyotypic analysis showed that these lines had normal karyotype: 46,XX (SC5-MSC and SC3a-MSC) and 46,XY (FetMSC and FRSN). To determine the status of the lines, their cell surface markers were analyzed by flow cytometry. This analysis revealed the presence of surface antigens CD44, CD73, CD90, CD105 and HLA-ABC, characteristic of human MSC, and the absence of CD34 and HLA-DR. Different lines were found to express CD117(c-kit) to a different level. Immunofluorescence and flow cytometry analysis did not detect TRA-1-60 and Oct-4, characteristic of human embryonic stem cells, and revealed interlinear variations in the level of SSEA, which did not depend on the cell origin. It is not clear yet whether these interlinear variations affect functional MSC status. In all the lines, immunofluorescence analysis showed the presence of the markers of early differentiation in the derivates of three germ layers which may allow MSC to be useful, in corresponding microenvironments, for reparation of tissue injures. Adipogenic and osteogenic differentiatiation of all cell lines has been shown.

Preventive and protective effects of Turkish propolis on H₂O₂-induced DNA damage in foreskin fibroblast cell lines

The aim of the present study was to evaluate the potential of Turkish propolis extracts if they prevent or protect foreskin fibroblast cells against hydrogen peroxide (H₂O₂)-induced oxidative DNA damage. Hydrogen peroxide (40 μM) was used as an inducer of oxidative DNA damage. The damage of DNA was evaluated by using the alkaline single cell gel electrophoresis (comet) assay. Turkish propolis extracts at concentrations of 25, 50, 75 and 100 μg/ml were prepared by ethanol. Anti-genotoxicity was assessed before, simultaneously, and after treatment of propolis extract (50 μg/ml) with H₂O₂. The results showed a significant decrease in H₂O₂-induced DNA damage in cultures treated with propolis extract. The antioxidant activity of phenolic components found in propolis may contribute to reduce the DNA damage induced by H₂O₂. Our findings confirmed the chemopreventive activity of propolis and showed that this effect may occur under different mechanisms.

Differential expression of extracellular matrix proteins in senescent and young human fibroblasts: a comparative proteomics and microarray study

The extracellular matrix (ECM) provides an essential structural framework for cell attachment, proliferation, and differentiation, and undergoes progressive changes during senescence. To investigate changes in protein expression in the extracellular matrix between young and senescent fibroblasts, we compared proteomic data (LTQ-FT) with cDNA microarray results. The peptide counts from the proteomics analysis were used to evaluate the level of ECM protein expression by young cells and senescent cells, and ECM protein expression data were compared with the microarray data. After completing the comparative analysis, we grouped the genes into four categories. Class I included genes with increased expression levels in both analyses, while class IV contained genes with reduced expression in both analyses. Class II and Class III contained genes with an inconsistent expression pattern. Finally, we validated the comparative analysis results by examining the expression level of the specific gene from each category using Western blot analysis and semiquantitative RT-PCR. Our results demonstrate that comparative analysis can be used to identify differentially expressed genes.

Identification of molecules derived from human fibroblast feeder cells that support the proliferation of human embryonic stem cells

The majority of human embryonic stem cell lines depend on a feeder cell layer for continuous growth in vitro, so that they can remain in an undifferentiated state. Limited knowledge is available concerning the molecular mechanisms that underlie the capacity of feeder cells to support both the proliferation and pluripotency of these cells. Importantly, feeder cells generally lose their capacity to support human embryonic stem cell proliferation in vitro following long-term culture. In this study, we performed large-scale gene expression profiles of human foreskin fibroblasts during early, intermediate and late passages using a custom DNA microarray platform (NeuroStem 2.0 Chip). The microarray data was validated using RT-PCR and virtual SAGE analysis. Our comparative gene expression study identified a limited number of molecular targets potentially involved in the ability of human neonatal foreskin fibroblasts to serve as feeder cells for human embryonic stem cell cultures. Among these, the C-KIT, leptin and pigment epithelium-derived factor (PEDF) genes were the most interesting candidates.

Phosphatidylinositol 3-Monophosphate Is Involved in Toxoplasma Apicoplast Biogenesis

Apicomplexan parasites cause devastating diseases including malaria and toxoplasmosis. They harbour a plastid-like, non-photosynthetic organelle of algal origin, the apicoplast, which fulfils critical functions for parasite survival. Because of its essential and original metabolic pathways, the apicoplast has become a target for the development of new anti-apicomplexan drugs. Here we show that the lipid phosphatidylinositol 3-monophosphate (PI3P) is involved in apicoplast biogenesis in Toxoplasma gondii. In yeast and mammalian cells, PI3P is concentrated on early endosomes and regulates trafficking of endosomal compartments. Imaging of PI3P in T. gondii showed that the lipid was associated with the apicoplast and apicoplast protein-shuttling vesicles. Interference with regular PI3P function by over-expression of a PI3P specific binding module in the parasite led to the accumulation of vesicles containing apicoplast peripheral membrane proteins around the apicoplast and, ultimately, to the loss of the organelle. Accordingly, inhibition of the PI3P-synthesising kinase interfered with apicoplast biogenesis. These findings point to an unexpected implication for this ubiquitous lipid and open new perspectives on how nuclear encoded proteins traffic to the apicoplast. This study also highlights the possibility of developing specific pharmacological inhibitors of the parasite PI3-kinase as novel anti-apicomplexan drugs.

Phosphatidyinositol 3-monophosphate (PI3P) is important for endocytic fusion events in eukaryotic cells. Despite the importance of this lipid in cell biology, its localization and function in apicomplexan parasites has not yet been extensively explored. In this study, we attribute for the first time a role for PI3P in Toxoplasma and identify a function different from classical endosomal trafficking. We show that the perturbation of PI3P function in T. gondii induced a morphological alteration of vesicles containing proteins destined for the outermost apicoplast membrane, which accumulated abnormally around the organelle, resulting ultimately in the loss of apicoplasts. These findings suggest a new role for PI3P in a vesicular trafficking process necessary for apicoplast biogenesis and provide an attractive model in which PI3P allows the fusion of vesicles containing nuclear-encoded apicoplast proteins with the apicoplast. As the outermost membrane of the apicoplast is originally derived from the endocytic compartment during the ancestral secondary endosymbiosis event, a fascinating question arises about whether apicomplexan parasites have reshaped the classical PI3P-dependent endocytic machinery to target proteins to the apicoplast.

Toxoplasma gondii: inhibitory activity and encystation effect of securinine and pyrrolidine derivatives on Toxoplasma growth

Securinine, an alkaloid originally isolated from Securinega suffruticosa, exhibits a wide range of biological activities, including anti-malarial activity. Along with securinine, 10 pyrrolidine derivatives, generated via the retrosynthesis of (-)-securinine, were selected and tested for their inhibitory activity against Toxoplasma gondii growth in vitro. Anti-Toxoplasma activity correlated to hydrophobicity of the tested compounds. Three pyrrolidine derivatives along with securinine inhibit Toxoplasma proliferation at the micromolar range. These compounds act on parasite proliferation in different capacities, either by slowing the growth rate or inhibiting invasion of host cells. Securinine induces bradyzoite differentiation at comparable levels to treatment with alkali media in vitro.

A novel family of Toxoplasma IMC proteins displays a hierarchical organization and functions in coordinating parasite division

Apicomplexans employ a peripheral membrane system called the inner membrane complex (IMC) for critical processes such as host cell invasion and daughter cell formation. We have identified a family of proteins that define novel sub-compartments of the Toxoplasma gondii IMC. These IMC Sub-compartment Proteins, ISP1, 2 and 3, are conserved throughout the Apicomplexa, but do not appear to be present outside the phylum. ISP1 localizes to the apical cap portion of the IMC, while ISP2 localizes to a central IMC region and ISP3 localizes to a central plus basal region of the complex. Targeting of all three ISPs is dependent upon N-terminal residues predicted for coordinated myristoylation and palmitoylation. Surprisingly, we show that disruption of ISP1 results in a dramatic relocalization of ISP2 and ISP3 to the apical cap. Although the N-terminal region of ISP1 is necessary and sufficient for apical cap targeting, exclusion of other family members requires the remaining C-terminal region of the protein. This gate-keeping function of ISP1 reveals an unprecedented mechanism of interactive and hierarchical targeting of proteins to establish these unique sub-compartments in the Toxoplasma IMC. Finally, we show that loss of ISP2 results in severe defects in daughter cell formation during endodyogeny, indicating a role for the ISP proteins in coordinating this unique process of Toxoplasma replication.

MiRNA profile associated with replicative senescence, extended cell culture, and ectopic telomerase expression in human foreskin fibroblasts

Senescence is a highly regulated process that limits cellular replication by enforcing a G1 arrest in response to various stimuli. Replicative senescence occurs in response to telomeric DNA erosion, and telomerase expression can offset replicative senescence leading to immortalization of many human cells. Limited data exists regarding changes of microRNA (miRNA) expression during senescence in human cells and no reports correlate telomerase expression with regulation of senescence-related miRNAs. We used miRNA microarrays to provide a detailed account of miRNA profiles for early passage and senescent human foreskin (BJ) fibroblasts as well as early and late passage immortalized fibroblasts (BJ-hTERT) that stably express the human telomerase reverse transcriptase subunit hTERT. Selected miRNAs that were differentially expressed in senescence were assayed for expression in quiescent cells to identify miRNAs that are specifically associated with senescence-associated growth arrest. From this group of senescence-associated miRNAs, we confirmed the ability of miR-143 to induce growth arrest after ectopic expression in young fibroblasts. Remarkably, miR-143 failed to induce growth arrest in BJ-hTERT cells. Importantly, the comparison of late passage immortalized fibroblasts to senescent wild type fibroblasts reveals that miR-146a, a miRNA with a validated role in regulating the senescence associated secretory pathway, is also regulated during extended cell culture independently of senescence. The discovery that miRNA expression is impacted by expression of ectopic hTERT as well as extended passaging in immortalized fibroblasts contributes to a comprehensive understanding of the connections between telomerase expression, senescence and processes of cellular aging.

Tissue-engineered bilayered cell therapy for the treatment of oral mucosal defects: a case series

In this case series, a tissue-engineered bilayered live cell therapy (LCT) is examined as an alternative to free gingival grafts in subjects with oral mucosal defects. Four patients with five sites requiring mucogingival surgery because of limited vestibular depth and limited keratinized oral mucosa were selected for treatment. All included patients had limited graft availability or preferred to avoid autogenous soft tissue grafting. The oral mucosal defects were treated with a tissue-engineered bilayered LCT, a circular disk of allogeneic live, human-derived, confluent, and bilayered keratinocyte and fibroblast cells. Sites were evaluated for wound healing, histologic appearance of the regenerated mucosa, and DNA persistence of the LCT. All sites healed uneventfully, with complete epithelialization by 14 days postoperative and no significant adverse events. The treated sites matched the surrounding tissues in both texture and color. Histologic samples revealed gingival tissue architecture characterized by a parakeratinized epithelium with a very sparse and diffuse chronic inflammatory response within the connective tissue. DNA persistence indicated that the pairs of samples (swab and biopsy) collected from each subject displayed the same identifier DNA, with no evidence of any other source. Further research is needed to evaluate the utility of LCT in clinical practice.

[In vitro culture of Toxoplasma gondii tachyzoites in HFF and HeLa cells]

OBJECTIVE

To study the proliferation of Toxoplasma gondii RH strain tachyzoites in human foreskin fibroblast (HFF) cells and HeLa cells.

METHODS

HFF cells and HeLa cells were cultured in 35 mm cell culture dishes with glass cover slip. Confluent cells were co-cultured with tachyzoites which purified by 3 microm filter membrane. At 0.5, 1, 2, 4, 8, 12, 24, 36, 48, 72, and 96 h after co-culture, the invasion of tachyzoites into the cells and proliferation in cells were observed with Giemsa staining.

RESULTS

In 4 h after co-culture, there were dozens of T. gondii tachyzoites in the HFF cells. At 24 h many pseudocysts emerged. At 72 h most of the cells were destroyed by tachyzoites. While cultured in HeLa cells for 8 h, there were only 3-5 tachyzoites in one cell, and pseudocysts emerged at 48 h. At 96 h after co-culture, most cells were destroyed.

CONCLUSION

Toxoplasma gondii tachyzoites can be cultured in HFF cells and HeLa cells. The proliferation of tachyzoites in HFF cells was quicker than that in HeLa cells.