Soft tissue regeneration in animal models using grafts from adipose mesenchymal stem cells and peripheral blood fibrin gel.

OBJECTIVE: Our study aimed to evaluate the effect of soft tissue regeneration in nude mice using grafts made from the combination of adipocytes from fat tissue mesenchymal stem cells and fibrin gel from peripheral blood. MATERIALS AND METHODS: Mesenchymal stem cells were isolated from adipose tissue and identified according to ISCT criteria. The scaffold used was fibrin obtained from peripheral blood. The grafts in this study were generated by transferring mesenchymal stem cells onto a fibrin scaffold. Two types of grafts, the research sample (fibrin scaffold containing adipocytes differentiated from mesenchymal stem cells) and the control sample (fibrin scaffold only), were grafted under the dorsal skin of the same mouse. After each research period, samples were collected and evaluated by histological methods to observe the existence and growth of cells inside the grafts. RESULTS: The results showed that the study group's graft integrated better within the tissue when compared with the control group. In addition, the grafts in the study group showed the presence of cells with characteristic morphology of adipocytes one week after transplantation. In contrast, control samples showed dimorphous shapes and features mainly composed of non-homogenous fragments. CONCLUSIONS: These initial conclusions might be considered a first step in generating safe bio-compatible engineered grafts specifically usable in post-traumatic tissue regeneration procedures.

Bone decay and beyond: how can we approach it better.

Osseo-degeneration is a disorder related to several factors, that may lead to the disruption of several skeletal regions providing support, such as the femur head, the vertebrae and the alveolar bone. The functional condition can be restored by means of grafting procedures, using different materials: calcium powder, xenografts, ceramics and metals. Such procedures aim at reforming an adequate bone volume and strength, that is necessary to support loading forces. Bone regeneration requires that the basic biological principles of osteogenesis, osteoinduction, osteoconduction and biocompatibility are followed. The success of regenerative procedures may depend on the inner structural, mechanical and metabolic condition of the host's bone on which implants should be inserted, on the surgical technique, and on the biomaterial used. Among these, the aging process of the patient appears to be relevant. It can be associated with metabolic disease leading to systemic functional decay, which involves a gradual steady decline of hormonal, immune function and osteo-metabolic activity. The latter can affect the positive outcomes of bone reconstruction and implant therapy. This review will analyze the biological and physiological factors involved in the bone tissue break-down, such as the influences from gut microbiome unbalance and the consequent metabolic, endocrine, immune dysfunctions, the surgery procedures and the quality of the grafting material used. The decline of bone architecture and strength should be corrected by using an appropriate clinical regenerative approach, based on a bio-endocrine, metabolic and immunologic know-how. The final characteristics of the regenerated bone must be able to support the loading forces transmitted by the implants, independent of the body location, and should be individualized according to the different condition of each patient.

Structural behaviour differences in low methoxy pectin solutions in the presence of divalent cations (Ca(2+) and Zn(2+)): a process driven by the binding mechanism of the cation with the galacturonate unit.

In this paper, we compare the interactions between low methoxy pectin (LMP) and either Ca(2+) or Zn(2+) in semi-dilute solutions. Intrinsic viscosity and turbidity measurements reveal that pectin-calcium solutions are more viscous, but yet less turbid, than pectin-zinc ones. To get a molecular understanding of the origin of this rather unexpected behavior, we further performed isothermal titration calorimetry, small angle neutron scattering experiments, as well as molecular dynamics simulations. Our results suggest that calcium cations induce the formation of a more homogeneous network of pectin than zinc cations do. The molecular dynamics simulations indicate that this difference could originate from the way the two cations bind to the galacturonate unit (Gal), the main component of LMP: zinc interacts with both carboxylate and hydroxyl groups of Gal, in a similar way to that described in the so-called egg-box model, whereas calcium only interacts with carboxylate groups. This different binding behavior seems to arise from the stronger interaction of water molecules with zinc than with calcium. Accordingly, galacturonate chains are more loosely associated with each other in the presence of Ca(2+) than with Zn(2+). This may improve their ability to form a gel, not only by dimerization, but also by the formation of point-like cross-links. Overall, our results show that zinc binds less easily to pectin than calcium does.

Insights into the extremotolerance of Acinetobacter radioresistens 50v1, a gram-negative bacterium isolated from the Mars Odyssey spacecraft.

The microbiology of the spacecraft assembly process is of paramount importance to planetary exploration, as the biological contamination that can result from remote-enabled spacecraft carries the potential to impact both life-detection experiments and extraterrestrial evolution. Accordingly, insights into the mechanisms and range of extremotolerance of Acinetobacter radioresistens 50v1, a Gram-negative bacterium isolated from the surface of the preflight Mars Odyssey orbiter, were gained by using a combination of microbiological, enzymatic, and proteomic methods. In summary, A. radioresistens 50v1 displayed a remarkable range of survival against hydrogen peroxide and the sequential exposures of desiccation, vapor and plasma phase hydrogen peroxide, and ultraviolet irradiation. The survival is among the highest reported for non-spore-forming and Gram-negative bacteria and is based upon contributions from the enzyme-based degradation of H(2)O(2) (catalase and alkyl hydroperoxide reductase), energy management (ATP synthase and alcohol dehydrogenase), and modulation of the membrane composition. Together, the biochemical and survival features of A. radioresistens 50v1 support a potential persistence on Mars (given an unintended or planned surface landing of the Mars Odyssey orbiter), which in turn may compromise the scientific integrity of future life-detection missions.

Complete coding sequence of bovine aggrecan: comparative structural analysis.

The previously available sequence for bovine aggrecan included only the KS domain, the C-terminal portion of the CS-2 domain, and the entire CS-3 and G3 domains. We have isolated cDNA clones for previously uncharacterized portions of the bovine aggrecan sequence, and, when we combined them with previously published incomplete sequences, have obtained a complete sequence for the entire core protein. The bovine aggrecan sequence, which is a composite of new sequence data and previously published incomplete sequences, is 2327 residues in length. Although there is significant conservation of G1, G2, and G3 globular domains between species, there are differences in the length of the interglobular domain, in the number of KS domain hexapeptide repeats and CS domain repeats, and in alternative splicing within the G3 domain. The bovine aggrecan KS domain contains 24 repeats of a hexapeptide motif. The largely uncharacterized CS-1 domain of bovine aggrecan was found to contain 27 variable repeats of a 21-residue consensus sequence. A notable feature of the bovine CS-1 domain is in the distribution of single Ser-Gly dipeptides, the majority of which are separated by 7 or 8 amino acids, compared to the human, where discrete pairs of Ser-Gly dipeptides are separated by 13 amino acids. The CS-2 domain contains a total of six "homology domains" with 4 complete and 2 partial approximately 100-residue repeats. Each "homology domain" contains a "nodal" region with few sites for CS chain addition that is highly conserved between species, suggesting a possible role in aggrecan biosynthesis or catabolism.

Purification and characterization of decorin core protein expressed in Escherichia coli as a maltose-binding protein fusion.

Decorin is a small leucine-rich proteoglycan which is a component of the extracellular matrix of many connective tissues. We have developed a method for expression and purification of decorin as a fusion protein in Escherichia coli. A PCR product coding for the 330-amino-acid-residue secreted form of bovine decorin core protein was cloned into the vector pMal-c for expression in E. coli as a maltose-binding protein (MBP) fusion. Expressed MBP-decorin tended to form insoluble aggregates resistant to degradation by E. coli intracellular proteases. Fusion protein was therefore solubilized from bacterial inclusion bodies using guanidine HCl and refolded by dilution of the chaotrope to minimally denaturing conditions and disulfide shuffling. Final purification included amylose resin affinity chromatography and size exclusion chromatography. The 79-kDa MBP-decorin fusion protein could be completely cleaved by factor Xa protease in 24 h to yield 43-kDa MBP and 36-kDa decorin core protein. The decorin core protein was separated from MBP and factor Xa protease by DEAE-Sephacel chromatography. Using a solid-phase assay, we have characterized its binding affinity for extracellular matrix components known to interact with tissue-derived decorin including collagen type VI, collagen type I, and fibronectin. The purification and refolding protocol described here may be generally applicable to bacterial expression of other members of this growing family of related small leucine-rich proteoglycan core proteins.

Cloning and expression of a thyroid hormone receptor alpha 1 in the perennibranchiate amphibian Proteus anguinus.

We demonstrated the presence of thyroid hormone receptor alpha mRNAs in tissues of the perennibranchiate amphibian Proteus anguinus, which is insensitive to thyroid hormone. From P. anguinus muscle we cloned and sequenced the 3' coding and untranslated region of a cDNA corresponding to a thyroid hormone receptor alpha 1. Using cDNA-PCR and in situ hybridization, we showed a tissue-specific expression of thyroid hormone receptor alpha genes, which was not upregulated by thyroid hormone as opposed to that observed in the TH-sensitive species, Xenopus laevis.

Bovine chondrocyte link protein cDNA sequence: interspecies conservation of primary structure and mRNA untranslated regions.

The sequence for bovine link protein cDNA, including 108 bases of the 5' untranslated region (UTR) and 768 nucleotides of the 3' UTR, was determined from polymerase chain reaction products and bovine articular chondrocyte cDNA clones. The deduced primary structure for bovine link protein predicts a protein 354 amino acid residues in length. Comparative analysis with link protein sequence from several other species revealed overall high conservation of protein coding sequence. High nucleotide sequence conservation was observed within the extensive 5' and 3' UTRs of bovine, human, pig, chick and rat link protein mRNA. As evidence that the UTRs might play a role in regulation of link protein mRNA turnover, multiple occurrences of the adenosine-uridine binding factor motif A(Ua)A were found to be conserved between species within 3' UTRs. A polyadenylation signal was conserved between the bovine and chicken sequence, use of which would result in the smallest of multiple bovine link protein mRNA species observed by Northern blot analysis.

Expression and characterization of a single recombinant proteoglycan tandem repeat domain of link protein that binds zinc and hyaluronate.

The first proteoglycan tandem repeat (PTR) of bovine link protein has been cloned in the pMAL-c vector and overexpressed in fusion with maltose-binding protein (MBP) in Escherichia coli. The fusion protein can be isolated from the soluble phase of the bacterial lysate by amylose affinity chromatography. The PTR domain can be cleaved from the MBP domain with factor Xa protease. Evidence using zinc affinity chromatography is presented which indicates that at least one of the zinc-binding sites of bovine link protein is contained within the first PTR domain. Zinc affinity chromatography was then incorporated as the final purification step of the MBP/PTR protein. Evidence for the binding of MBP/PTR to hyaluronic acid (HA) is demonstrated by coprecipitation with HA using cetylpyridinium chloride. Binding is specific since MBP/PTR does not coprecipitate with chondroitin sulfate. Binding is also demonstrated in an ELISA assay on HA-coated plates. In this assay, binding could be inhibited by the addition of HA or HA oligosaccharides.

Modulation of extracellular matrix gene expression in bovine high-density chondrocyte cultures by ascorbic acid and enzymatic resuspension.

To define the influence of time in culture on gene expression for extracellular matrix proteins we have examined the progression of changes in gene expression for chondrocyte extracellular matrix proteins from the time the chondrocytes are initially isolated from their native cartilaginous matrix through 13 days of high-density culture. We have also determined the effect of matrix depletion and shape change by enzymatically resuspending cells after 6 days in culture and sampling the replated cells at intervals up to 13 days. Northern blots of chondrocyte RNA were hybridized with probes for collagen alpha 1(II), alpha 1(I), aggrecan, link protein, and decorin mRNA. The steady-state level of alpha 1(II) collagen mRNA dropped to 45% of the initial value within 24 h, with a further decrease to 21% by Day 3. A similar decline occurred, but less rapidly in ascorbate supplemented cultures with values of 78%, at 24 h and 62% at Day 3. Very low levels of alpha 1(I) collagen mRNA were detectible in cells maintained for 2 weeks without ascorbate supplementation. Type I collagen alpha 1(I) mRNA was not detected in freshly isolated chondrocytes or at the earliest times in culture but was increasingly abundant from Days 5-13 in the presence of ascorbate. Ascorbic acid supplementation altered the pattern of aggrecan expression over time. Without ascorbate there was an increase in steady-state aggrecan mRNA with time in culture, but in the presence of ascorbate, aggrecan mRNA levels peaked at early culture times and progressively diminished. Decorin steady-state mRNA levels in cultures not supplemented with ascorbic acid steadily increased over time in culture following a lag of several days. In cultures treated with ascorbate, however, there was a progressive increase in decorin steady-state mRNA levels from the first day in culture. Resuspending chondrocytes by digestion of the cell layer with pronase and collagenase at Day 6, which resulted in a transient shape change as well as matrix depletion, resulted in a greater than 2-fold increase in alpha 1(II) mRNA at Day 7 in ascorbate supplemented cultures. Only with ascorbate was there a small increase in decorin mRNA at Day 7, after resuspension. Aggrecan mRNA, however, showed a 3-fold increase without ascorbate and a 10-fold increase with ascorbate within 24 h of resuspension. Similarly, link protein steady-state mRNA showed an 8-fold increase without ascorbate and a 9-fold increase with ascorbate within 24 h after resuspension.

Genetic variability of the wild incompatibility alleles of the tetrapolar basidiomycete Agrocybe aegerita.

The variability of the sexual incompatibility genes of Agrocybe aegerita was investigated in the homokaryotic progeny of 13 wild dikaryotic strains from five distinct European geographic origins. Results of mating tests allowed identification of 18 A alleles and 16 B alleles out of a possible 26 different alleles for each in the sample. The determination and the comparison by a contingency χ (2) test of the frequencies of allele replications between intra- and interregional matings showed no departure from a random distribution of incompatibility alleles. The allelic series estimated for the incompatibility genes of the entire population of A. aegerita, 30 A and 25 B aleles, are significantly less extensive than those already hypothesized for other tetrapolar hymenomycetes. However, the low variability of incompatibility genes has little effect on the outbreeding efficiency (92.6%) of this mushroom. The low variability of the incompatibility alleles and the apparent absence of intrafactorial recombination could relate to a single-locus structure of the incompatibility genes in A. aegerita.