Tenocytes from several mammal species have been shown to be prone to phenotypic drift at early sub-culture passages. In the present study we compared allogenic and xenogenic serum supplementation suitability as a supplement for the in vitro expansion of equine tenocytes (eTCs), in combination with the presence or absence of crowding conditions. eTCs were isolated from superficial digital flexor tendon and expanded in normal growth medium containing DMEM, 10% appropriate serum, 1% penicillin/streptomycin solution. Isolation was performed by migration method in growth medium containing the selected serum. Silver staining, densitometry, zymography, immunofluorescence, metabolic activity, proliferation, viability and morphology were performed after 3, 5 and 7 days in culture with a seeding density of 10,000 cells/cm2. Treatment conditions were equine serum (ES) or foetal bovine serum (FBS), with or without 75 μg/mL of crowding agent carrageenan (CR). Viability and metabolic activity of eTCs were affected by FBS. eTCs in ES reached higher cell density than in FBS in day 7, especially with CR. Morphology of eTCs was maintained under different sera. Silver staining on pepsin digested cell layers shows that collagen type I deposition rate is remarkably enhanced in the presence of CR in all conditions. Immunofluorescence showed increased expression for collagen I, III, V and VI in both sera in the presence of CR. Deposition of all collagen types but type VI was increased by ES supplementation. We conclude that ES in combination with CR can represent a reliable choice for the ex vivo expansion of eTCs.

RNA-Seq or whole transcriptome shotgun sequencing has been adopted in the last years as a reference technique to determine the presence and the quantity of different species of RNA in determined biological samples, thanks to it allows the identification every single RNA species transcribed from a reference genome. Meta-profiling takes advantage of the public availability of an increasing set of RNA-Seq data produced by different laboratories to summarize the expression levels of the different RNA species of many samples according to their biological context, giving the opportunity to perform comparisons on the gene expression profiles of different tissues by integrating data derived from a high number of studies. By using Genevestigator™; a platform which integrates RNA-Seq data into meta-profiles, we have performed a comparison between the gene expression profiles of bone, cartilage, muscle tendon and skin by means of interrogating its database with different gene sets and families with relevance to the function of the tissues of the musculoskeletal system. The collagen gene family and genes coding for proteoglycans, matrix metalloproteinases and tissue inhibitors of metalloproteinases, mechanotransduction-related proteins and signalling pathways involved in tissue development and differentiation have been analysed. Hierarchical clustering for every gene set was performed for the understanding the differences and similarities between the different tissues included in the analyses. The results of this study will help to improve our understanding of the musculoskeletal system, and will help to identify new biomarkers and signalling pathways of specific relevance for the bone, cartilage, muscle and tendon.

Cell-based scaffold-free tissue equivalents present a limited clinical translation as consequence of the delayed extracellular matrix (ECM) deposition due to the prolonged production time in vitro. Different combinations of media supplements such as ascorbic acid, growth factors, oxygen tension among others can modulate the cell fate or the ECM synthesis. New research lines are focusing on the use of macromolecular crowders (MMCs) as media supplement for cell sheet production due to their ability to increase ECM deposition by volume exclusion effect, pro-collagenases alosteric regulation, matrix self-assembly by confinement and diffusion limitation (most probably, modulating the interaction between the ECM, MMPs and TIMPs). Herein, different molecular weights and concentrations of a natural potential MMC (Crowder-A) have been tested in equine adipose-derived stem cell (eADSC) and human dermal fibroblast (hADF) cultures in comparison with other commonly used crowders such as carrageenan and the Ficoll™ cocktail 70 KDa and 400 KDa. The eADSCs were characterized according to the current criteria for horse MSCs. Tri-lineage and FACS analysis showed eADSC osteogenic and adipogenic potentials and the presence of the markers CD29, CD44, CD90. The screening of the aforementioned Crowder-A was performed in cultures of 15,000 cells / cm² for the eADSCs and 25,000 cells / cm² for the hADFs during 3, 5, and 7 days. Non-MMC conditions were used as negative controls. Collagen type I was analysed by SDS-PAGE. Other collagen types were studied by immunocytochemistry assays. Significant increase of some ECM components was observed in some concentrations and molecular weights of the Crowder-A.

The paramount importance of synovial fluid in lubrication and protection of articular joints has long been recognized. Synovial fluid, a dialysate of plasma, forms an interface with both the synovium and cartilage and plays a crucial role in joint lubrication and bearing functions. In an osteoarthritic joint, damage to the articular cartilage causes modifications in the rheological properties of synovial fluid and, reducing the viscoelasticity and increasing the friction between articular surfaces. Viscosupplementation is a treatment for osteoarthritis that uses hyaluronic acid as a (visco)supplement to the diseased joint. The aim of this treatment is to restore the rheological properties of synovial fluid. Osteoarthritis is the most common disease affecting the joints in human population and among the most important causes of pain, disability and economic loss. Therefore, innovative methods are needed to more effectively treat osteoarthritis, directly addressing the disease process. Among various locomotor mechanisms that could serve to illustrate the integrated nature of functional morphology, perhaps none is more complex than the equine locomotor system.

Confronting the need for evaluating the current methods to control joint disease, the horse provides an excellent animal model. As it suffers similar clinical manifestations to those seen in human, it may provide tentative biomedical extrapolations.

The rheological properties of synovial fluid (SF) are largely attributed to the presence of high molecular weight hyaluronic acid (HA). In normal SF, HA has been shown to be an anti-inflammatory molecule able to increase the viscosity and promote endogenous production of HA. The aim of the present report was to investigate the possible effect of HA concentration in rheological properties (elastic modulus, G´ and viscous modulus, G´´) of osteoarthritic equine SF. For this purpose, SF from intercarpal, metacarpophalangeal and distal interphalangeal joint was aspirated by aseptic arthrocentesis from 60 Warmblood horses. For determining HA concentrations in equine SF samples, a commercially available ELISA kit was used. Additionally, full rheological sample characterization was carried out with an AR-G2 rheometer (TA Instruments Ltd., UK) in order to measure the elastic G´ and viscous G´´ moduli, at horse's body (37.5 ºC) temperature. The ANOVA findings revealed statistically significant main effects of the factors Joint Type (p = 0.001), and main effects of covariates Age (p = 0.019) and HA (p < 0.001) on the mean values of logG” and logG' measurements. Interpreting the coefficients of the covariate HA, a positive correlation of HA was detected on the response logG” and logG' measurements. Collectively, these data illustrate the role of HA in equine pathological SF.