Comparative study of Bifidobacteriumanimalis, Escherichiacoli, Lactobacilluscasei and Saccharomycesboulardii probiotic properties

The present work investigates some probiotic properties of four different microorganisms (Bifidobacterium animalis var. lactis BB-12, Escherichia coli EMO, Lactobacillus casei and Saccharomyces boulardii). In vitro and in vivo tests were carried out to compare cell wall hydrophobicity, production of antagonistic substances, survival capacity in the gastrointestinal tract of germ-free mice without pathological consequence, and immune modulation by stimulation of Küpffer cells, intestinal sIgA and IL-10 levels. In vitro antagonism against pathogenic bacteria and yeast was only observed for the probiotic bacteria B. animalis and L. casei. The hydrophobic property of the cell wall was higher for B. animalis and E. coli EMO, and this property could be responsible for a better ability to colonize the gastrointestinal tract of germ-free mice. Higher levels of sIgA were observed mainly for S. boulardii, followed by E. coli EMO and B. animalis, and only S. boulardii induced a significant higher level of IL-10. In conclusion, for a probiotic use, S. boulardii presented better characteristics in terms of immunomodulation, and B. animalis and L. casei for antagonistic substance production. The knowledge of the different probiotic properties could be used to choice the better microorganism depending on the therapeutic or prophylactic application.     

Sialylation of Campylobacter jejuni lipo-oligosaccharides is associated with severe gastro-enteritis and reactive arthritis

We used various genotyping methods to identify bacterial genetic markers for development of arthritic symptoms following Campylobacter enteritis. We genotyped a collection of population derived Campylobacter strains, with detailed information on clinical characteristics, including arthritic symptoms. Besides using whole genome screening methods, we focused on the lipo-oligosaccharide (LOS) gene locus in which marker genes for developing post-Campylobacter neurological disease are present. Patients with arthritic symptoms were more frequently infected with Campylobacter jejuni strains with a class A LOS locus. We also found that patients who were infected with a C. jejuni strain containing sialic acid-positive LOS (class A, B or C) more frequently had bloody diarrhoea and a longer duration of symptoms. Furthermore, the IgM antibody response against Campylobacter was stronger in patients with a sialic acid containing LOS. Ganglioside auto-antibodies were observed in a small number of patients following infection with a class C strain. We conclude that sialylation of C. jejuni LOS is not only a risk factor for development of post-infectious symptoms, but is also associated with increased severity of enteric disease.     

Impaired differentiation potential of human trabecular bone mesenchymal stromal cells from elderly patients

Background aimsAdvances in bone tissue engineering with mesenchymal stromal cells (MSC) as an alternative to conventional orthopedic procedures has opened new horizons for the treatment of large bone defects. Bone marrow (BM) and trabecular bone are both sources of MSC. Regarding clinical use, we tested the potency of MSC from different sources.MethodsWe obtained MSC from 17 donors (mean age 64.6 years) by extensive washing of trabecular bone from the femoral head and trochanter, as well as BM aspirates of the iliac crest and trochanter. The starting material was evaluated by histologic analysis and assessment of colony-forming unit–fibroblasts (CFU-F). The MSC populations were compared for proliferation and differentiation potential, at RNA and morphologic levels.ResultsMSC proliferation potential and immunophenotype (expression of CD49a, CD73, CD90, CD105, CD146 and Stro-1) were similar whatever the starting material. However, the differentiation potential of MSC obtained by bone washing was impaired compared with aspiration; culture-amplified cells showed few Oil Red O-positive adipocytes and few mineralized areas and formed inconsistent Alcian blue-positive high-density micropellets after growth under adipogenic, osteogenic and chondrogenic conditions, respectively. MSC cultured with 1 ng/mL fibroblast growth factor 2 (FGF-2) showed better differentiation potential.ConclusionsTrabecular bone MSC from elderly patients is not good starting material for use in cell therapy for bone repair and regeneration, unless cultured in the presence of FGF-2.     

Unrestricted somatic stem cells from human umbilical cord blood grow in serum-free medium as spheres

Background  

Human umbilical cord blood-derived unrestricted somatic stem cells (USSCs), which are capable of multilineage differentiation, are currently under investigation for a number of therapeutic applications. A major obstacle to their clinical use is the fact that in vitro expansion is still dependent upon fetal calf serum, which could be a source of pathogens. In this study, we investigate the capacity of three different stem cell culture media to support USSCs in serum-free conditions; HEScGRO™, PSM and USSC growth medium^ACF. Our findings demonstrate that USSCs do not grow in HEScGRO™ or PSM, but we were able to isolate, proliferate and maintain multipotency of three USSC lines in USSC growth medium^ACF.     

Legionella pneumophila Strain 130b Possesses a Unique Combination of Type IV Secretion Systems and Novel Dot/Icm Secretion System Effector Proteins

Legionella pneumophila is a ubiquitous inhabitant of environmental water reservoirs. The bacteria infect a wide variety of protozoa and, after accidental inhalation, human alveolar macrophages, which can lead to severe pneumonia. The capability to thrive in phagocytic hosts is dependent on the Dot/Icm type IV secretion system (T4SS), which translocates multiple effector proteins into the host cell. In this study, we determined the draft genome sequence of L. pneumophila strain 130b (Wadsworth). We found that the 130b genome encodes a unique set of T4SSs, namely, the Dot/Icm T4SS, a Trb-1-like T4SS, and two Lvh T4SS gene clusters. Sequence analysis substantiated that a core set of 107 Dot/Icm T4SS effectors was conserved among the sequenced L. pneumophila strains Philadelphia-1, Lens, Paris, Corby, Alcoy, and 130b. We also identified new effector candidates and validated the translocation of 10 novel Dot/Icm T4SS effectors that are not present in L. pneumophila strain Philadelphia-1. We examined the prevalence of the new effector genes among 87 environmental and clinical L. pneumophila isolates. Five of the new effectors were identified in 34 to 62% of the isolates, while less than 15% of the strains tested positive for the other five genes. Collectively, our data show that the core set of conserved Dot/Icm T4SS effector proteins is supplemented by a variable repertoire of accessory effectors that may partly account for differences in the virulences and prevalences of particular L. pneumophila strains.Many bacterial pathogens use specialized protein secretion systems to deliver into host cells virulence effector proteins that interfere with the antimicrobial responses of the host and facilitate the survival of the pathogen (5, 10, 22, 76). The components of these secretion systems are highly conserved. Comparative bioinformatic analysis of pathogen genomes revealed an ever-increasing number of proteins that are likely to be translocated virulence effectors. Only a few effectors have been characterized, and their biochemical functions are unknown, yet the identification of translocated effector proteins and their mechanism of action is fundamental to understanding the pathogenesis of many bacterial infections.Legionella pneumophila is the etiological agent of Legionnaires’ disease, which is an acute form of pneumonia (34, 66). L. pneumophila serogroup 1 accounts for more than 90% of all cases worldwide. Although L. pneumophila is an environmental organism, its ability to survive and replicate in amoebae, such as Acanthamoeba castellanii, has equipped the organism with the capacity to replicate in human cells (45, 58, 68, 80). Following the inhalation of aerosols containing L. pneumophila into the human lung, the bacteria promote their uptake by alveolar macrophages and epithelial cells (21, 44, 71), where they replicate within an intracellular vacuole that avoids fusion with the endocytic pathway (46, 47). L. pneumophila evades endosome fusion by establishing a replicative vacuole that shares many characteristics with the endoplasmic reticulum (ER) (48, 53, 89). The formation of the unique Legionella-containing vacuole (LCV) requires the Dot (defective in organelle trafficking)/Icm (intracellular multiplication) type IV secretion system (T4SS) (85, 91).Type IV secretion systems are versatile multiprotein complexes that can transport DNA and proteins to recipient bacteria or host cells (19, 36). Based on structural and organizational similarity, three main T4SS classes have been distinguished: T4SSA, T4SSB, and genomic island-associated T4SS (GI-T4SS) (3, 51). The genetic organization and components of T4SSA have high similarity to the classical VirB4/VirD4 transfer DNA (T-DNA) transfer system of Agrobacterium tumefaciens (3). In the sequenced L. pneumophila strains, three distinct T4SSAs with different prevalences among strains have been described: Lvh, Trb-1, and Trb-2 (37, 83, 86). The Lvh (Legionella vir homologues) T4SSA is not required for intracellular bacterial replication in macrophages and amoebae but seems to contribute to infection at lower temperatures and inclusion in Acanthamoeba castellanii cysts (6, 78, 86).The Dot/Icm T4SSB secretes and translocates multiple bacterial effector proteins into the vacuolar membrane and cytosol of the host cell (31, 70). The functions of the great majority of these proteins are unknown. Several effectors have similarity to eukaryotic proteins or carry eukaryotic motifs (7, 16, 25). They are predicted to allow L. pneumophila to manipulate host cell processes by functional mimicry (31, 70). Many of the effectors have paralogues or belong to related protein families that are likely to have overlapping functions.Comparative analysis of the recent L. pneumophila genome sequences has revealed their diversity and plasticity (16, 18, 88). This plasticity enables the bacterium to acquire new genetic factors, including new effector proteins that enhance bacterial replication and survival in eukaryotic cells. This has resulted in a diverse species in which 7 to 11% of the genes in each L. pneumophila isolate are strain specific (38). Some of the diversity occurs among genes encoding Dot/Icm effectors, including those within the same family. For example some ankyrin repeat and F-box effector genes are highly conserved, while others vary considerably between L. pneumophila isolates (16, 41, 62, 73, 75). Even though it is not experimentally proven, the subsequent selection of Dot/Icm effectors among different L. pneumophila isolates might reflect their usefulness in host-pathogen interactions, whereby different effector repertoires are maintained during adaptation to different environmental niches or hosts. This may then translate into differences in virulence during opportunistic infection.In this study, we sequenced the genome of L. pneumophila serogroup 1 strain 130b (ATCC BAA-74, also known as Wadsworth or AA100) (29, 30) and analyzed the sequence for T4SSs and novel Dot/Icm effectors. This analysis established that the strain encodes a unique combination of T4SSs and a set of Dot/Icm effectors that had not been described previously but that are present in a range of clinical and environmental L. pneumophila isolates. The new effectors represent the latest members of an ever-growing list of T4SS substrates and presumably reflect the great capacity of L. pneumophila for adaptation to a variety of hosts.     

Fully-automated image processing software to analyze calcium traces in populations of single cells

Advances in fluorescence live cell imaging over the last decade have revolutionized cell biology by providing access to single-cell information in space and time. One current limitation of live-cell imaging is the lack of automated procedures to analyze single-cell data in large cell populations. Most commercially available image processing softwares do not have built-in image segmentation tools that can automatically and accurately extract single-cell data in a time series. Consequently, individual cells are usually identified manually, a process which is time consuming and inherently low-throughput. We have developed a MATLAB-based image segmentation algorithm that reliably detects individual cells in dense populations and measures their fluorescence intensity over time. To demonstrate the value of this algorithm, we measured store-operated calcium entry (SOCE) in hundreds of individual cells. Rapid access to single-cell calcium signals in large populations allowed us to precisely determine the relationship between SOCE activity and STIM1 levels, a key component of SOCE. Our image processing tool can in principle be applied to a wide range of live-cell imaging modalities and cell-based drug screening platforms.     

Benefits and Costs of Dominance in the Angelfish Centropyge bicolor

Social groups are often structured by dominance hierarchies in which subordinates consistently defer to dominants. High‐ranking individuals benefit by gaining inequitable access to resources, and often achieve higher reproductive success; but may also suffer costs associated with maintaining dominance. We used a large‐scale field study to investigate the benefits and costs of dominance in the angelfish Centropyge bicolor, a sequential hermaphrodite. Each haremic group contains a single linear body size‐based hierarchy with the male being most dominant, followed by several females in descending size order. Compared to their subordinate females, dominant males clearly benefited from disproportionately high spawning frequencies, but bore costs in lower foraging rates and greater aggressive defence of their large territories. Within the female hierarchy, more dominant individuals benefited from higher spawning frequencies and larger home ranges, but displayed neither higher foraging rates nor spawn order priority. However, dominance in females was also linked to aggressiveness, particularly towards immediate subordinates, suggesting that females were using energetically costly aggression to maintain their high rank. We further showed by experimentally removing dominant females that the linear hierarchy was also a social queue, with subordinates growing to inherit higher rank with its attendant benefits and costs when dominants disappeared. We suggest that in C. bicolor, the primary benefit of high rank is increased reproductive success in terms of current spawning frequency and the prospect of inheriting the male position in the near future, which may be traded off against the cost of aggressively defending rank and territory.