Satellite cells isolated from aged or dystrophic muscle exhibit a reduced capacity to promote angiogenesis in vitro

Deficits in skeletal muscle function exist during aging and muscular dystrophy, and suboptimal function has been related to factors such as atrophy, excessive inflammation and fibrosis. Ineffective muscle regeneration underlies each condition and has been attributed to a deficit in myogenic potential of resident stem cells or satellite cells. In addition to reduced myogenic activity, satellite cells may also lose the ability to communicate with vascular cells for coordination of myogenesis and angiogenesis and restoration of proper muscle function. Objectives of the current study were to determine the angiogenic-promoting capacity of satellite cells from two states characterized by dysfunctional skeletal muscle repair, aging and Duchenne muscular dystrophy. An in vitro culture model composed of satellite cells or their conditioned media and rat adipose tissue microvascular fragments (MVF) was used to examine this relationship. Microvascular fragments cultured in the presence of rat satellite cells from adult muscle donors (9–12 month of age) exhibited greater indices of angiogenesis (endothelial cell sprouting, tubule formation and extensive branching) than MVF co-cultured with satellite cells from aged muscle donors (24 month of age). We sought to determine if the differential degree of angiogenesis we observed in the co-culture setting was due to soluble factors produced by each satellite cell age group. Similar to the co-culture experiment, conditioned media produced by adult satellite cells promoted greater angiogenesis than that of aged satellite cells. Next, we examined differences in angiogenesis-stimulating ability of satellite cells from 12 mo old MDX mice or age-matched wild-type mice. A reduction in angiogenesis activity of media conditioned by satellite cells from dystrophic muscle was observed as compared to healthy muscle. Finally, we found reduced gene expression of hypoxia-inducible factor 1α (HIF-1α) and vascular endothelial growth factor (VEGF) in both aged and dystrophic satellite cells compared to their adult and normal counterparts, respectively. These results indicate that functional deficits in satellite cell activities during aging and diseased muscle may extend to their ability to communicate with other cells in their environment, in this case cells involved in angiogenesis.     

Suppression and augmentation of the primary in vitro immune response by different classes of antibodies

The capacity of purified γG₁ and γG₂ anti-sheep red blood cell (SRBC) antibodies to exert antigen-specific feedback regulations on the primary in vitro immune response to SRBC was studied. Antibodies were administered to the culture in the native form, as sheep erythrocyte-antibody complexes or as pepsin-derived F(ab′)₂ antibody fragments. Marked differences in the feedback regulatory effects of γG₁ and γG₂ antibodies were found. Antibodies of the γG₁ class suppressed the immune response to SRBC, whereas γG₂ antibodies isolated from the same serum exerted an augmenting effect on antibody synthesis. These opposing feedback effects on in vitro antibody synthesis were immunologically specific, relatively insensitive to changes in antigen concentrations, and could be elicited by either adding antibodies and antigen separately to the culture or as preformed antigen-antibody complexes. Experiments comparing the activities of the F(ab′)₂ antibody fragments with the parent γG₁ and γG₂ antibodies suggested that the Fc fragments may be involved in these regulatory effects on the immune response. It is concluded that the antigen-specific suppressive and augmenting effects on antibody synthesis shown here are determined by the antibody class. In addition, we suggest that these opposing antibody-mediated feedback effects may represent one of the important elements of the immune response.     

Inhibition by sodium periodate of the in vitro antibody response of mouse spleen cells and its reversal by borohydride or aldehyde blocking reagents

Mild oxidation of mouse spleen cells by sodium periodate induces blastogenesis with enhancement of thymidine incorporation. Concomitantly, the specific in vitro response of these cells to sheep red blood cells and trinitrophenyl-polyacrylamide and the nonspecific polyclonal B-cell response to lipopolysaccharide are markedly inhibited. Exposure of these cells to sodium borohydride and hydroxylamine following periodate treatment reduces blastogenesis and prevents periodate-induced suppression. Data suggest that the integrity of aldehyde moieties generated by periodate oxidation is necessary for blastogenesis and induction of suppressor cells in mouse spleen cell culture.     

Schistosoma mansoni: Complement and antibody damage,mediated by human eosinophils and neutrophils,in killing schistosomula in vitro

The time and course of damage to Schistosoma mansoni schistosomula mediated by human eosinophils and neutrophils and by antibody (A) and/or complement (C) was studied. The rate of schistosomula death was significantly higher in the complement containing systems (i.e., “A + C” or “C alone”) when compared to A alone. In general, at all the time points studied, the percentage of killing in the three systems was A + C > C alone > A alone irrespective of whether the effector cells were neutrophils or eosinophils. Preferential killing of schistosomula by eosinophils, as compared to neutrophils, was observed with C alone and A + C, but only when eosinophils and neutrophils from the same donor were compared. In contrast, eosinophils and neutrophils appeared to be equally effective in killing antibody-coated schistosomula.A comparison was made of the susceptibility to killing of schistosomula prepared mechanically or by skin penetration. There was no appreciable difference in terms of susceptibility to killing by the various combinations of eosinophils, neutrophils, antibody, and complement between these two forms of schistosomula.The preferential killing of complement-coated, as compared to antibody-coated schistosomula by eosinophils appears to be relatively rapid, an observation which may be of significance both in natural and acquired immunity to migrating larval helminths.     

The multidrug resistance efflux complex, EmrAB from Escherichia coli forms a dimer in vitro

Tripartite efflux systems are responsible for the export of toxins across both the inner and outer membranes of Gram negative bacteria. Previous work has indicated that EmrAB-TolC from Escherichia coli is such a tripartite system, comprised of EmrB an MFS transporter, EmrA, a membrane fusion protein and TolC, an outer membrane channel. The whole complex is predicted to form a continuous channel allowing direct export from the cytoplasm to the exterior of the cell. Little is known, however, about the interactions between the individual components of this system. Reconstitution of EmrA + EmrB resulted in co-elution of the two proteins from a gel filtration column indicating formation of the EmrAB complex. Electron microscopic single particle analysis of the reconstituted EmrAB complex revealed the presence of particles approximately 240 × 140 Å, likely to correspond to two EmrAB dimers in a back-to-back arrangement, suggesting the dimeric EmrAB form is the physiological state contrasting with the trimeric arrangement of the AcrAB-TolC system.     

Teladorsagia circumcincta: Survival of adults in vitro is enhanced by the presence of a mammalian cell line

Adult Teladorsagia circumcincta survival and motility in vitro was examined in a range of different cell culture media, supplements and gas mixes. Under optimum conditions, worms survived for 14 days, exhibiting high motility for 9 days and egg production for 72 h. Optimum conditions involved co-culture of worms with a HeLa cell line in a supplemented cell medium (CEM) and an atmosphere containing 10% CO₂, 5% O₂ 85% N₂, 65% humidity at 37 °C. The incubation medium consisted of Minimum Essential Medium with 10% fetal calf serum, 1% non-essential amino acids, 1% glutamax and 1% penicillin-neomycin-streptomycin cocktail mix. Compared with optimum conditions, incubation in CEM alone, cell conditioned CEM, RPMI alone, Medium 199 alone, reduced CO₂ or O₂, or when cells were replaced with Escherichia coli, both survival and motility were reduced. Optimum conditions for adult T. circumcincta maintenance for culture, anthelmintic testing or generation of excretory/secretory products are described.     

The content of DNA and RNA in microparticles released by Jurkat and HL-60 cells undergoing in vitro apoptosis

Microparticles are small membrane-bound vesicles that are released from apoptotic cells during blebbing. These particles contain DNA and RNA and display important functional activities, including immune system activation. Furthermore, nucleic acids inside the particle can be analyzed as biomarkers in a variety of disease states. To elucidate the nature of microparticle nucleic acids, DNA and RNA released in microparticles from the Jurkat T and HL-60 promyelocytic cell lines undergoing apoptosis in vitro were studied. Microparticles were isolated from culture media by differential centrifugation and characterized by flow cytometry and molecular approaches. In these particles, DNA showed laddering by gel electrophoresis and was present in a form that allowed direct binding by a monoclonal anti-DNA antibody, suggesting antigen accessibility even without fixation. Analysis of RNA by gel electrophoresis showed intact 18s and 28s ribosomal RNA bands, although lower molecular bands consistent with 28s ribosomal RNA degradation products were also present. Particles also contained messenger RNA as shown by RT-PCR amplification of sequences for β-actin and GAPDH. In addition, gel electrophoresis showed the presence of low molecular weight RNA in the size range of microRNA. Together, these results indicate that microparticles from apoptotic Jurkat and HL-60 cells contain diverse nucleic acid species, indicating translocation of both nuclear and cytoplasmic DNA and RNA as particle release occurs during death.     

The agglutination protein AggA from Shewanella oneidensis MR-1 is a TolC-like protein and forms active channels in vitro

Type I secretion systems (TISS) are associated with the virulence of Gram-negative bacteria and the secretion of pathogenic molecular determinants. The Shewanella oneidensis MR-1 outer-membrane protein AggA is part of a TISS. Recombinant AggA expressed in Escherichia coli as inclusion bodies can be efficiently refolded in vitro, and can form active channel-tunnels as shown by proteoliposome swelling assays and electrophysiological measurements in lipid bilayers. Structure-based sequence alignments identify AggA as a TolC-like protein, and point to a conserved structural framework among such proteins despite their marginal sequence similarity. Phylogenetic analysis reveals that clustering of TolC-like proteins can be correlated with their involvement in TISS, Resistance/Nodulation/Division (RND) or Major Facilitator Superfamily (MFS) complexes. Taken together, our results establish a first set of structure-function relationships for a bacterial outer-membrane protein likely to be exclusively involved in TISS, and may contribute towards a more accurate classification of Outer-Membrane Factor (OMF) family proteins.     

Genetic variation and relationships in Laetiporus sulphureus s. lat., as determined by ITS rDNA sequences and in vitro growth rate

The aim of this study was to characterise the genetic variation and molecular relationships of the brown rot polypore, Laetiporus sulphureus s. lat., from Europe, South America, Africa, and Asia, using ITS sequences of the nu-rDNA and by comparing the growth rate in vitro. In a NJ analysis of the sequences of 130 individuals of L. sulphureus s. lat., eight distinct clusters emerged, supported by BS values of 70-100 %. Within each cluster, the ITS rDNA sequence variation was below 3 %. The sequences were also analysed together with Laetiporus sequences available from GenBank. Results demonstrated the possible presence of L. huroniensis in Europe (invalidly named L. montanus) and L. gilbertsonii in South America, and provided more information on the Pan-American and European distribution of one of the clades, currently known in North America as L. sulphureus. L. conifericola formed a separate distinct clade. Moreover, the analysis revealed two unknown Laetiporus taxa in Korea, one in South Africa, and one in Europe. As L. sulphureus is described from Europe (France), and we show that more than one taxon exist here, it is presently not possible to define L. sulphureus s. str. Certain biological differences between some of the clades (in vitro growth rates, chemical composition, and pigmentation) were demonstrated and discussed.     

Anticancer activity in vitro of a fucoidan from the brown alga Fucus evanescens and its low-molecular fragments, structurally characterized by tandem mass-spectrometry

Fucoidan was isolated and purified from the brown algae Fucus evanescens and subjected to autohydrolysis to obtain low-molecular-weight fragments. MALDI-TOFMS analysis has shown that monosulfated fucose and more heavily sulfated (up to 5) fucooligosaccharides with polymerization degree (DP) 2, 4 and 6, including galactose-containing sulfated oligosaccharides were the products of autohydrolysis. The structural features of these fragments were elucidated by negative-ion potential lift tandem MALDI-TOF mass-spectrometry using arabinoosazone as a matrix, which allowed reducing the in-source fragmentation. Native fucoidan has been shown to exert anticancer activities in both human malignant melanoma cell lines SK-MEL-28 and SK-MEL-5. Low-molecular-weight fragments exhibited almost no action to cell proliferation in both cell lines and colony formation on SK-MEL-5 cells, but its inhibition activity to the colony formation of SK-MEL-28 cell lines was as high as was demonstrated by native fucoidan (70%). Probably, the inhibiting activity for SK-MEL-28 depended on the presence of sulfates and (1 → 4)-linked α-l-Fucp residues in the main chain of fucoidan/oligosaccharides.     

Lycopersicon esculentum lectin is a marker of transient amplifying cells in in vitro cultures of isolated limbal stem cells

The maintenance of a healthy corneal epithelium under both normal and wound healing conditions is achieved by a population of stem cells (SCs) located in the basal epithelium at the corneoscleral limbus. In the light of the development of strategies for reconstruction of the ocular surface in patients with limbal stem cell deficiency, a major challenge in corneal SCs biology remains the ability to identify stem cells in situ and in vitro. To date, not so much markers exist for the identification of different phenotypes. CESCs (corneal epithelial stem cells) isolated from limbal biopsies were maintained in primary culture for 14 days and stained with Hoechst and a panel of FITC-conjugated lectins. All lectins, with the exception of Lycopersicon esculentum, labelled CESCs irrespective of the degree of differentiation. Lycopersicon esculentum, that binds N-acetylglucosamine oligomers, labelled intensely only the surface of TACs (single corneal epithelial stem cells better than colonial cells). These results suggest that Lycopersicon esculentum lectin is a useful and easy-to-use marker for the in vitro identification of TACs (transient amplifying cells) in cultures of isolated CESCs.     

The in vitro synthesis of lysozyme,total proteins,and polyphenylalanine by ribosomes containing hydrolyzed ribonucleic acid

Ribosomes containing 23S rRNA with one scission per molecule were found to be inactive in the synthesis of lysozyme, total protein, and polyphenylalanine at 9.1 mm Mg²⁺. Increasing the Mg²⁺ concentration to 12.0 mm restored synthesis of lysozyme and total proteins. Ribosomes with two or more scissions in 23S rRNA were fully active in the synthesis of lysozyme, total protein, and polyphenylalanine at 9.1 mm Mg²⁺. It appears that one scission in the 23S rRNA molecule in a 70S ribosome allows the structure of the ribosome to change so as to disorient ribosomal proteins or rRNA. A second scission in 23S rRNA or an increase in Mg²⁺ concentration reverses the change which occurred with the first scission.     

Trypanosoma cruzi: Correlation of resistance and susceptibility in infected inbred mice with the in vivo primary antibody response to sheep red blood cells

Nonspecific immune responses during the course of murine Trypanosoma cruzi infection were examined in mouse strains genetically resistant or susceptible to the Brazil strain of T. cruzi. Spleen cells from infected susceptible (C3H) or resistant [C57 B1/10 and FI (C3H × C57)]mice at various points during the course of infection exhibited a reduced response to concanavalin A and lipopolysaccharide in vitro. Since this reduced response occurred in both susceptible and resistant mice, it was not predictive of resistance or susceptibility in vivo. We next examined the kinetics of in vivo primary antibody response to sheep red blood cells (SRBC) in infected C3H and C57 mice. C3H mice exhibited inhibition of the direct plaque-forming cell assay (d-PFC) which persisted until death. In contrast C57 mice exhibited no inhibition of the response at Day 5 and subsequently a markedly augmented response was observed. Other strains of mice were similarly investigated: all the susceptible mice examined (A/J, BALB/c) showed inhibition or depression of the primary antibody response and resistant mice [B10Br, C57B1/10, SJL, F1 (C3H × C57)]demonstrated either no inhibition or considerable augmentation of this response. CS7 mice resistant to the Brazil strain were susceptible to the Tulahuén strain. The mice in this latter group exhibited a markedly significant inhibition of the in vivo primary antibody response to SRBC. Culture forms of the Brazil strain protected C3H mice from a virulent challenge. This immunization resulted in a markedly augmented antibody response. The data reported herein are consistent with the notion that inhibition of the primary antibody response to SRBC correlates with susceptibility whereas no inhibition or, indeed, augmentation of the response correlates with natural as well as acquired resistance.     

The ability of fetal calf serum, new-born calf serum and normal steer serum to promote the in vitro development of bovine morulae

The objective of this study was to compare fetal calf serum, new-born calf serum and normal steer serum as medium supplements in the development of bovine morulae in vitro . Bovine morulae were cultured in Hams F-10 tissue culture medium (HF-10) supplemented with 5% or 10% (v/v) fetal calf serum (FCS), new-born calf serum (NBCS) or normal steer serum (NSS). Embryos were recovered at slaughter from mixed bred donor cows of mixed breeding following estrus synchronization with prostaglandin and superovulation with follicle stimulating hormone. A total of 88 morulae were recovered, washed in HF-10 + 1% Bovine Serum Albumin and randomly assigned to treatments. Embryos were cultured in microdrops of medium under paraffin oil at 37 degrees C in a 5% CO(2) humidified atmosphere. Observations for stage of development were made every 24 hours. In vitro development was analyzed by assigning to each embryo a value of 0-5 based on the most advanced stage reached (0= no development, 5= development to a hatched blastocyst). Analysis of variance of these data revealed a significant treatment effect (P<.001) while no level effect or treatment x level interaction was apparent. Comparison of treatment means by Duncans new mulitple range test showed that NSS was superior to NBCS (P<.05) which was in turn superior to FCS (P<.05) as supplements of HF-10 in promoting the in vitro development of bovine morulae.     

Humoral primary immune response in vitro in a homologous mouse system: replacement of fetal calf serum by a 2-mercaptoethanol or macrophage-activated fraction of mouse serum.

The primary immune response in mouse spleen cell cultures against heterologous red cell antigens is dependent on the medium being supplemented with selected batches of fetal calf serum. Mouse serum itself is not able to support this response. The active immune response-supporting component in fetal calf serum seems to be a distinct factor (s), which has been partially purified by Sephadex G-100 filtration and termed MaSF-2-mercaptoethanol-activated serum factor. In this report it is demonstrated that MaSF is also present in mouse serum. For functional detection, mouse MaSF has to be separated from higher m.w. inhibitors, and has to be activated by 2-ME. After separation and activation mouse MaSF can support the primary immune response in a completely homologous in vitro culture system. Evidence is presented that MaSF can also be activated by macrophages. It is concluded that macrophages and 2-ME have the same mode of action in the primary immune response in vitro, i.e., induction of lymphocyte competence by activation of a serum factor.     

Plant response to nitrate starvation is determined by N storage capacity matched by nitrate uptake capacity in two Arabidopsis genotypes

In a low-input agricultural context, plants facing temporalnutrient deficiencies need to be efficient. By comparing theeffects of NO-starvation in two lines of Arabidopsis thaliana (RIL282 and 432 from the Bay-0xShahdarapopulation), this study aimed to screen the physiological mechanismsallowing one genotype to withstand NO-deprivation better than another and to rate the relative importance of processessuch as nitrate uptake, storage, and recycling. These two lines,chosen because of their contrasted shoot N contents for identicalshoot biomass under N-replete conditions, underwent a 10 d nitratestarvation after 28 d of culture at 5 mM NO. It was demonstrated that line 432 coped betterwith NO-starvation, producing higher shoot and root biomass and sustaining maximal growthfor a longer time. However, both lines exhibited similar featuresunder NO-starvation conditions. In particular, the nitrate pool underwent the same drastic andearly depletion, whereas the protein pool was increased to asimilar extent. Nitrate remobilization rate was identical too.It was proportional to nitrate content in both shoots and roots,but it was higher in roots. One difference emerged: line 432had a higher nitrate content at the beginning of the starvationphase. This suggests that to overcome NO-starvation, line 432 did not directly rely on theN pool composition, nor on nitrate remobilization efficiency,but on higher nitrate storage capacities prior to NO-starvation. Moreover, the higher resistanceof 432 corresponded to a higher nitrate uptake capacity anda 2–9-fold higher expression of AtNRT1.1, AtNRT2.1, andAtNRT2.4 genes, suggesting that the corresponding nitrate transportersmay be preferentially involved under fluctuating N supply conditions. Key words: Arabidopsis thaliana, genetic variability, N partitioning, N recycling, N use efficiency, nitrate deficiency, nitrate remobilization rate, nitrate transporter gene expression, nitrogen reserves, plant development Received 12 July 2007; Revised 21 November 2007 Accepted 17 December 2007