Enhancing electron affinity and tuning band gap in donor-acceptor organic semiconductors by benzothiadiazole directed C-H borylation.

Electrophilic borylation using BCl3 and benzothiadiazole to direct the C-H functionalisation of an adjacent aromatic unit produces fused boracyclic materials with minimally changed HOMO energy levels but significantly reduced LUMO energy levels. In situ alkylation and arylation at boron using Al(alkyl)3 or Zn(aryl)2 is facile and affords boracycles that possess excellent stability towards protic solvents, including water, and display large bathochromic shifts leading to far red/NIR emission in the solid state with quantum yields of up to 34%. Solution fabricated OLEDs with far red/NIR electroluminescence are reported with EQEs > 0.4%.

Identifying viable regulatory and innovation pathways for regenerative medicine: a case study of cultured red blood cells.

The creation of red blood cells for the blood transfusion markets represents a highly innovative application of regenerative medicine with a medium term (5-10 year) prospect for first clinical studies. This article describes a case study analysis of a project to derive red blood cells from human embryonic stem cells, including the systemic challenges arising from (i) the selection of appropriate and viable regulatory protocols and (ii) technological constraints related to stem cell manufacture and scale up to clinical Good Manufacturing Practice (GMP) standard. The method used for case study analysis (Analysis of Life Science Innovation Systems (ALSIS)) is also innovative, demonstrating a new approach to social and natural science collaboration to foresight product development pathways. Issues arising along the development pathway include cell manufacture and scale-up challenges, affected by regulatory demands emerging from the innovation ecosystem (preclinical testing and clinical trials). Our discussion reflects on the efforts being made by regulators to adapt the current pharmaceuticals-based regulatory model to an allogeneic regenerative medicine product and the broader lessons from this case study for successful innovation and translation of regenerative medicine therapies, including the role of methodological and regulatory innovation in future development in the field.

Use of IL3 and chromatin-modifying reagents valproic acid and 5-aza-2'-deoxycytidine to affect mobilized peripheral blood CD34+ cell fate decisions.

BACKGROUND AND OBJECTIVES: Culture of blood CD34(+) cells with chromatin-modifying agents can lead to an increase in marrow repopulating cells and in the case of valproic acid increased erythroid cell colony formation. We undertook research to help understand what effects these reagents have on mobilized peripheral blood (MPB) CD34(+) cells. MATERIALS AND METHODS: Mobilized peripheral blood was obtained under informed consent and ethics committee approval from nine patients and allograft donors. Epigenetic modifiers valproic acid and 5-aza-2'-deoxycytidine were used singly or in combination with each other and with IL3 when culturing mobilized peripheral blood CD34(+) cells. Cultured cells were subsequently used in flow cytometry and colony-forming unit assay experiments. RESULTS: Addition of IL3 to the in vitro cell growth medium improved the expansion and maintained the functionality of CD34(+) cells. Valproic acid and IL3 also work synergistically to increase the numbers of CD34(+) /CD36(+) double-positive cells. We found that an apparent increase in red cell colony formation was a result of a decrease in white cell colonies, with no overall increase in red cell colonies when equivalent numbers of CD34(+) cells are plated. CONCLUSIONS: Mobilized peripheral blood CD34(+) stem and progenitor cells are affected by chromatin-modifying agents and IL3 giving higher numbers of CD34(+) /CD36(+) double-positive erythroid progenitors.

Quantal and graded stimulation of B lymphocytes as alternative strategies for regulating adaptive immune responses.

Lymphocytes undergo a typical response pattern following stimulation in vivo: they proliferate, differentiate to effector cells, cease dividing and predominantly die, leaving a small proportion of long-lived memory and effector cells. This pattern results from cell-intrinsic processes following activation and the influence of external regulation. Here we apply quantitative methods to study B-cell responses in vitro. Our results reveal that B cells stimulated through two Toll-like receptors (TLRs) require minimal external direction to undergo the basic pattern typical of immunity. Altering the stimulus strength regulates the outcome in a quantal manner by varying the number of cells that participate in the response. In contrast, the T-cell-dependent CD40 activation signal induces a response where division times and differentiation rates vary in relation to stimulus strength. These studies offer insight into how the adaptive antibody response may have evolved from simple autonomous response patterns to the highly regulable state that is now observed in mammals.

UK approach to assessing assays and filters designed to reduce the risk of transfusion-transmitted vCJD.

Three cases of vCJD transmission by blood transfusion have been reported in the UK, and a fourth case discovered at post-mortem. Modelling has been conducted to predict the number of cases that may occur in the future through transfusion, based on estimates of prevalence, infectivity and susceptibility, and a number of steps have been taken to reduce the risk of transmission. These include deferral of previously transfused donors, leucocyte depletion of all components, importation of plasma for certain patient groups and for fractionation, and the collection of the majority of platelets from single donors (by apheresis). However, even with these interventions, some future cases are still predicted. The UK-wide Advisory Committee on the Safety of Blood, Tissues and Organs (SaBTO) considers the evidence for clinical and cost-effectiveness of any proposed intervention, such as prion assays and filters, and makes recommendations to the governments of the UK. The development of prion assays is challenging as prions do not generate an immune response, do not have nucleic acid and are present in blood in very low concentrations against a high background of normal prion protein. It is critically important that prion assays show high levels of sensitivity and - especially -specificity for a healthy blood donor population. Assessment is impacted by the very short supply of positive human samples, necessitating the use of animal models. Filters that are capable of removing prions from blood components have been developed and CE marked, but it is again necessary to use animal models to study their efficacy. Guidelines have been produced for the assessment of the quality of red cells filtered through these devices, and a clinical safety study has recently been completed. In conclusion, the evaluation of screening assays and prion filters is challenging, time-consuming and costly, but these evaluations are critical to policy making.

Drug modification of LPS-stimulated human monocyte-derived dendritic cells.

Many drugs have been reported to convert dendritic cells (DCs) into a tolerogenic phenotype in vitro. However, there is evidence that an additional stimulus, such as lipopolysaccharide (LPS), may also be necessary for tolerogenic function in vivo. Little is known concerning the effects of drug modification on LPS-prestimulated DCs. In this study, monocyte-derived immature DCs were stimulated with LPS first and the influence investigated of six different agents on surface antigen expression, cytokine production and lymphocyte proliferation and cytotoxicity. Mycophenolic acid- and rapamycin-exposed DCs had little effect on surface antigen expression or functional activity towards lymphocytes. In contrast, treatment of immature dendritic cells with aspirin, dexamethasone, 1alpha,25-dihydroxyvitamin D3 (VD3) or butyric acid was associated with diminished expression of CD1a, CD1c, CD40, CD80 and CD83. Dendritic cell modification by aspirin, dexamethasone and VD3 were all associated with decreased production of tumour necrosis factor-alpha (TNFalpha). Furthermore, VD3 treatment was associated with a consistent and significant elevation of IL-6 production. Aspirin-, dexamethasone- VD3- and butyric acid-modified DCs suppressed interferon-gamma production, proliferation and cytotoxicity in co-culture with allogeneic mononuclear cells, but inconsistent results were obtained with different allogeneic combinations. Different drugs show varying effects on DC phenotype. No single agent was consistently effective in suppressing the stimulation of allogeneic mononuclear cells and future work is needed to explore drug combinations.

Immunity and inflammation in the uterus.

Microbes often infect the uterus and particularly the endometrium of animals. Infections are most commonly associated with natural service, pregnancy and the post-partum period, leading to inflammation with the elaboration of cytokines, chemokines and prostaglandins. Clinical diseases such as metritis, endometritis and abortion are important causes of infertility. The adaptive immune response to infection has been characterized previously, so the present review aims to highlight the emerging role for innate immunity in the endometrium. The detection of microbes and the innate immune response depends on the detection of pathogen-associated molecular patterns by pattern recognition receptors. The main families of pattern recognition receptors are Toll-like receptors (TLRs), nucleotide oligomerization domain-like receptors, retinoic acid-inducible gene I-like receptors and C-type lectin receptors. These receptors are most often expressed by hematopoietic cells, but the epithelial and stromal cells of the endometrium also possess functional receptors. For example, endometrial cells express TLR4 for recognition of the lipopolysaccharide endotoxin of Gram-negative bacteria, leading to secretion of IL-6, IL-8 and prostaglandin E(2) . It is likely that the epithelial and stromal cells provide a first line of defence in the endometrium to alert hematopoietic cells to the presence of microbes within the uterus.

Granulocyte colony-stimulating factor (G-CSF) depresses angiogenesis in vivo and in vitro: implications for sourcing cells for vascular regeneration therapy.

SUMMARY BACKGROUND: The most common source of hematopoietic progenitor cells (HPCs) for hematopoietic reconstitution comprises granulocyte colony-stimulating factor (G-CSF)-mobilized peripheral blood stem cells (PBSCs). It has been proposed that endothelial progenitor cells (EPCs) share precursors with HPCs, and that EPC release may accompany HPC mobilization to the circulation following G-CSF administration. OBJECTIVE: To investigate EPC activity following HPC mobilization, and the direct effects of exogenous G-CSF administration on human umbilical vein endothelial cells (HUVECs) and endothelial outgrowth cells (EOCs), using in vitro and in vivo correlates of angiogenesis. PATIENTS/METHODS: Heparinized venous blood samples were collected from healthy volunteers and from cord blood at parturition. G-CSF-mobilized samples were collected before administration, at apheresis harvest, and at follow-up. PBSCs were phenotyped by flow cytometry, and cultured in standard colony-forming unit (CFU)-EPC and EOC assays. The effect of exogenous G-CSF was investigated by addition of it to HUVECs and EOCs in standard tubule formation and aortic ring assays, and in an in vivo sponge implantation model. RESULTS: Our data show that G-CSF mobilization of PBSCs produces a profound, reversible depression of circulating CFU-EPCs. Furthermore, G-CSF administration did not mobilize CD34+CD133- cells, which include precursors of EOCs. No EOCs were cultured from any mobilized PBSCs studied. Exogenous G-CSF inhibited CFU-EPC generation, HUVEC and EOC tubule formation, microvessel outgrowth, and implanted sponge vascularization in mice. CONCLUSIONS: G-CSF administration depresses both endothelial cell angiogenesis and monocyte proangiogenic activity, and we suggest that any angiogenic benefit observed following implantation of cells mobilized by G-CSF may come only from a paracrine effect from HPCs.

Aggregation of zinc oxide nanoparticles: from non-aqueous dispersions to composites used as photoactive layers in hybrid solar cells.

Hybrid solar cells are third-generation solar cells that are colloidal in nature. The composites used as photoactive layers within hybrid solar cells comprise conjugated polymers and inorganic semiconductor nanoparticles (e.g., nanocrystals and nanorods). The composites are usually prepared by spin casting non-aqueous dispersions consisting of polymer, nanoparticles and a co-solvent blend. The factors governing colloidal stability of the dispersions used for composite preparation have not been reported in detail. Here, the factors governing the stability of non-aqueous ZnO nanocrystal and nanorod dispersions as well as the relationship between dispersion stability and the extents of nanoparticle aggregation within model composites are studied. The polymers used are poly[[(2-methyl-4-methoxyphenyl)imino]-9,9-di-(2'-ethylhexyl)-fluorene-2,7-diyl] (PTAA) and poly[2,6-(4,4-bis-(2-ethyhexyl)-4H-cyclopenta [2,1-b;3,4-b']-dithiophene)-alt-4,7-(2,1,3-benzo thiadiazole)] (PCPDTBT). FTIR in conjunction with thermogravimetric analysis data showed that up to 30% of the surfaces for the as-prepared ZnO nanocrystals and nanorods were occupied by acetate ligands. 1-Propylamine was found to form covalent coordinate bonds with ZnO and this contributes the ability of this co-solvent to promote enhanced ZnO dispersion stability. The morphologies of the composites were investigated using optical microscopy, AFM and TEM. A strong link was found between colloidal stability of the parent ZnO dispersions, extent of nanoparticle aggregation within the composites and pK(a) for the conjugate acid of the co-solvent. Electrostatic interactions did not control ZnO dispersion stability or composite morphology. Extensive nanometer-scale nanoparticle aggregation was evident within the composites. This was attributed to incompatibility between the polymer and (ligand covered) ZnO nanoparticles. Strategies for reducing uncontrolled nanoparticle aggregation are suggested.

Fabrication of planar organic nanotransistors using low temperature thermal nanoimprint lithography for chemical sensor applications.

A new fabrication process for the patterning of organic semiconductors at the nanoscale has been developed using low temperature thermal nanoimprint lithography and the details of this process are discussed. Novel planar nanotransistors have been fabricated and characterized from poly(3-hexylthiophene) (P3HT) and we demonstrate the feasibility of using such devices as highly sensitive chemical sensors.

Dissociation of phenotypic and functional endothelial progenitor cells in patients undergoing percutaneous coronary intervention.

OBJECTIVES: Endothelial progenitor cells (EPCs) are circulating mononuclear cells with the capacity to mature into endothelial cells and contribute to vascular repair. We assessed the effect of local vascular injury during percutaneous coronary intervention (PCI) on circulating EPCs in patients with coronary artery disease. DESIGN AND SETTING: Prospective case-control study in a university teaching hospital. PATIENTS: 54 patients undergoing elective coronary angiography. INTERVENTIONS AND MAIN OUTCOME MEASURES: EPCs were quantified by flow cytometry (CD34(+)KDR(+) phenotype) complemented by real-time polymerase chain reaction (PCR), and the colony forming unit (CFU-EC) functional assay, before and during the first 24 hours after diagnostic angiography (n = 27) or PCI (n = 27). RESULTS: Coronary intervention, but not diagnostic angiography, resulted in an increase in blood neutrophil count (p<0.001) and C-reactive protein concentrations (p = 0.001) in the absence of significant myocardial necrosis. Twenty-four hours after PCI, CFU-ECs increased threefold (median [IQR], 4.4 [1.3-13.8] vs 16.0 [2.1-35.0], p = 0.01), although circulating CD34(+)KDR(+) cells (0.019% (SEM 0.004%) vs 0.016% (0.003%) of leucocytes, p = 0.62) and leucocyte CD34 mRNA (relative quantity 2.3 (0.5) vs 2.1 (0.4), p = 0.21) did not. There was no correlation between CFU-ECs and CD34(+)KDR(+) cells. CONCLUSIONS: Local vascular injury following PCI results in a systemic inflammatory response and increases functional CFU-ECs. This increase was not associated with an early mobilisation of CD34(+)KDR(+) cells, suggesting these cells are not the primary source of EPCs involved in the immediate response to vascular injury.

Extremes of L-ficolin concentration in children with recurrent infections are associated with single nucleotide polymorphisms in the FCN2 gene.

L-ficolin (also called ficolin-2, P35 or hucolin) is a soluble pattern recognition molecule of suspected importance in anti-microbial immunity. It activates the lectin pathway of complement and acts as an opsonin. l-ficolin, encoded by the FCN2 gene, recognizes microbial polysaccharides and glycoconjugates rich in GlcNAc or GalNAc. We report here data concerning four single nucleotide polymorphisms (SNPs) of the FCN2 gene and their relationship to l-ficolin serum concentrations. There are two pairs of SNPs in linkage disequilibrium: ss32469536 (located in promoter) with rs7851696 (in exon 8) and ss32469537 (promoter) with ss32469544 (exon 8). We selected groups possessing low or high serum l-ficolin concentrations (or= 4.5 microg/ml, respectively) from Polish children suffering from recurrent respiratory infections (n = 146). Low l-ficolin levels were associated with variant alleles for ss32469536 and rs7851696 and normal alleles for ss32469537 and ss32469544. Conversely, high l-ficolin levels were associated with variant alleles of ss32469537 and ss32469544. FCN2 genotyping should be a valuable additional tool for disease association studies.

In vitro amplification and detection of variant Creutzfeldt-Jakob disease PrPSc.

Variant Creutzfeldt-Jakob disease (vCJD) poses a serious risk of secondary transmission and the need to detect infectivity in asymptomatic individuals is therefore of major importance. Following infection, it is assumed that minute amounts of disease-associated prion protein (PrP(Sc)) replicate by conversion of the host cellular prion protein (PrP(C)). Therefore, methods of rapidly reproducing this conversion process in vitro would be valuable tools in the development of such tests. We show that one such technique, protein misfolding cyclic amplification (PMCA), can amplify vCJD PrP(Sc) from human brain tissue, and that the degree of amplification is dependent upon the substrate PRNP codon 129 polymorphism. Both human platelets and transgenic mouse brain are shown to be suitable alternative substrate sources, and amplified PrP(Sc) can be detected using a conformation-dependent immunoassay (CDI), allowing the detection of putative proteinase K sensitive forms of PrP(Sc).

Blood donor derived dendritic cells and cytotoxic T cells for specific fusion-gene adoptive immunotherapy.

BACKGROUND AND OBJECTIVES: Therapeutic immunological reagents tailored to individual patients have been shown to be a viable treatment strategy for some forms of leukaemia. This work investigates the possibility of using blood donations as a source of leukaemia-specific immune therapeutics. MATERIALS AND METHODS: The acute promyelocytic cell line NB4 carrying the PML-RAR alpha fusion was used as a target for cytotoxic T lymphocytes (CTL) stimulated to recognize the fusion. Stimulation of CTL was by production of dendritic cells pulsed with plasmid vectors containing polymerase chain reaction (PCR)-generated sequences of PML-RAR alpha derived from NB4 cells. PCR primer design included a Kozak consensus sequence to allow correct translation of the nucleic acid into protein. Identification of specific cytotoxicity was by both Granzyme B ELISPOT and by (51)Cr-release assays. RESULTS: Specific CTL activity targeting NB4 cells can be generated from donor-derived peripheral blood mononuclear cells. However, individual donors appear to respond differently to the length of stimulatory sequence encoded in the vector. Use of an internal methionine in the PML gene, which also satisfies the Kozak rules, allows translation in vitro and, thus, might provide a suitable start site for stimulation using acute promyelocytic leukaemia-specific sequence. CONCLUSION: The work presented here suggests that blood donor derived dendritic cells can be used to stimulate leukaemia-specific CTL from the same donation ex vivo. This would enable the generation of patient-specific therapeutics from major histocompatibility (MHC)-matched allogeneic donors. However, different MHC-matched donors might vary in their response depending on the length of the antigenic sequence.

A model of immune regulation as a consequence of randomized lymphocyte division and death times.

The magnitude of an adaptive immune response is controlled by the interplay of lymphocyte quiescence, proliferation, and apoptosis. How lymphocytes integrate receptor-mediated signals influencing these cell fates is a fundamental question for understanding this complex system. We examined how lymphocytes interleave times to divide and die to develop a mathematical model of lymphocyte growth regulation. This model provides a powerful method for fitting and analyzing fluorescent division tracking data and reveals how summing receptor-mediated kinetic changes can modify the immune response progressively from rapid tolerance induction to strong immunity. An important consequence of our results is that intrinsic variability in otherwise identical cells, usually dismissed as noise, may have evolved to be an essential feature of immune regulation.

Association between mannan-binding lectin and impaired lung function in cystic fibrosis may be age-dependent.

An association between mannan-binding lectin (MBL) status and severity of lung function impairment in cystic fibrosis (CF) has been found in several studies, but not in others. To explore the possible basis for discrepancies in the literature, we related both MBL and L-ficolin concentrations to lung function and examined the results in relation to the age of the patients. For patients under 15 years of age, those with MBL < 200 ng/ml had better lung function than those with MBL > 200 ng/ml [median forced expiratory volume in 1 s (FEV(1)), 99% versus 83%; P = 0.05]. For patients over 15 years of age, those with MBL < 200 ng/ml had poorer lung function than those with MBL > 200 ng/ml (median FEV(1), 44% versus 55%; P = 0.1). Also, for the over 15-year-olds, the proportion of patients with FEV(1) values below the median was greater in the MBL-insufficient subgroup (P < 0.04). In other words, relative deficiency of MBL appears to accelerate the age-related decline in lung function in CF patients. No corresponding relationships could be found between L-ficolin concentration and lung function. These findings and interpretation lend support to the potential value of MBL replacement therapy in a small minority of cystic fibrosis patients.

Novel mutations in FH and expansion of the spectrum of phenotypes expressed in families with hereditary leiomyomatosis and renal cell cancer.

BACKGROUND: Hereditary leiomyomatosis and renal cell cancer (HLRCC; OMIM 605839) is the predisposition to develop smooth muscle tumours of the skin and uterus and/or renal cancer and is associated with mutations in the fumarate hydratase gene (FH). Here we characterise the clinical and genetic features of 21 new families and present the first report of two African-American families with HLRCC. METHODS: Using direct sequencing analysis we identified FH germline mutations in 100% (21/21) of new families with HLRCC. RESULTS: We identified 14 germline FH mutations (10 missense, one insertion, two nonsense, and one splice site) located along the entire length of the coding region. Nine of these were novel, with six missense (L89S, R117G, R190C, A342D, S376P, Q396P), one nonsense (S102X), one insertion (111insA), and one splice site (138+1G>C) mutation. Four unrelated families had the R58X mutation and five unrelated families the R190H mutation. Of families with HLRCC, 62% (13/21) had renal cancer and 76% (16/21) cutaneous leiomyomas. Of women FH mutation carriers from 16 families, 100% (22/22) had uterine fibroids. Our study shows that expression of cutaneous manifestations in HLRCC ranges from absent to mild to severe cutaneous leiomyomas. FH mutations were associated with a spectrum of renal tumours. No genotype-phenotype correlations were identified. CONCLUSIONS: In combination with our previous report, we identify 31 different germline FH mutations in 56 families with HLRCC (20 missense, eight frameshifts, two nonsense, and one splice site). Our FH mutation detection rate is 93% (52/56) in families suspected of HLRCC.

Detection of an autologous ligand for mannan-binding lectin on human B lymphocytes.

Mannan-binding lectin (MBL) is a collectin and a major soluble pattern-recognition protein. MBL can distinguish self from nonself and altered self using its C-type carbohydrate recognition domain and may also interact via its collagen-like region with autologous cells. Recently, it was found that MBL could bind to adherent cells (monocytes) and dendritic cells in a specific and sugar-sensitive manner. We have now investigated the interaction of MBL with fresh human peripheral blood cells and report binding to B lymphocytes and natural killer cells. The binding to B lymphocytes was studied in detail and was compared with the binding of MBL to monocytes and dendritic cells. Binding of MBL to B cells was evident at physiological MBL and calcium concentrations but was optimal at supraphysiological MBL concentrations. It was readily inhibited by autologous serum, mannan, mannose, GlcNAc and (to a lesser extent) galactose but not by C1q. A similar, but not identical, inhibition profile was observed with dendritic cells, but monocytes were not sensitive to mannose or mannan. We conclude that MBL is capable of binding to differently glycosylated ligands on several autologous cell types via its carbohydrate-recognition domain. We speculate that this could have functional significance at extravascular sites, but perhaps only in individuals possessing MBL genotypes conferring MBL sufficiency.

Fusion hybrids of dendritic cells and autologous myeloid blasts as a potential cellular vaccine for acute myeloid leukaemia.

We assessed the potential of tumour cell/dendritic cell fusion hybrids to generate in vitro anti-leukaemic T-cell responses following co-culture with autologous remission lymphocytes in six patients with acute myeloid leukaemia (AML). Comparison was made to anti-leukaemic responses induced by mature dendritic cells (mDC) co-cultured with autologous, irradiated myeloid blasts. Fusion hybrids induced anti-leukaemic T-cell immune responses in three of six patients. Tumour-pulsed mDC induced T-cellular responses in two other patients. Only one of six patients remission lymphocytes failed to develop leukaemia-directed immune responses following stimulation with either construct. Anti-proliferative properties of fusion hybrids against allogeneic lymphocytes were observed in mixed lymphocyte-leukaemia reactions and were found not to be specific to the cell fusion partners and did not prevent the ability of AML-mDC heterokaryons to induce autologous anti-leukaemic cytotoxicity. We conclude that tumour cell/dendritic cell fusion hybrids hold promise as a cellular vaccine for AML.