Anna Bajek

Adipose-Derived Stem Cells as a Tool in Cell-Based Therapies

Recent development in stem cell isolation methods and expansion under laboratory conditions create an opportunity to use those aforementioned cells in tissue engineering and regenerative medicine. Particular attention is drawn towards mesenchymal stem cells (MSCs) being multipotent progenitors exhibiting several unique characteristics, including high proliferation potential, self-renewal abilities and multilineage differentiation into cells of mesodermal and non-mesodermal origin. High abundance of MSCs found in adipose tissue makes it a very attractive source of adult stem cells for further use in regenerative medicine applications. Despite immunomodulating properties of adipose-derived stem cells (ASCs) and a secretion of a wide variety of paracrine factors that facilitate tissue regeneration, effectiveness of stem cell therapy was not supported by the results of clinical trials. Lack of a single, universal stem cell marker, patient-to-patient variability, heterogeneity of ASC population combined with multiple widely different protocols of cell isolation and expansion hinder the ability to precisely identify and analyze biological properties of stem cells. The above issues contribute to conflicting data reported in literature. We will review the comprehensive information concerning characteristic features of ASCs. We will also review the regenerative potential and clinical application based on various clinical trials.

Morphological and Urodynamic Evaluation of Urinary Bladder Wall Regeneration: Muscles Guarantee Contraction But Not Proper Function—A Rat Model Research Study

BACKGROUND Numerous studies are ungoing to develop a substitute for the native urinary bladder wall. The principals of tissue engineering approaches to urinary bladder wall augmentation require a favorable environment for smooth muscle regeneration, which is crucial for bladder function. This study was performed to evaluate bone marrow mesenchymal stem cells (BMSC) seeded on to amniotic membranes fixed to Tachosil sponges as grafts for urinary bladder muscle layer augmentation in a syngenic rat model. MATERIALS AND METHODS Amniotic membranes seeded with BMSC and covered by Tachosil sponges were implanted as multilayer grafts into nine rats to regenerate the urinary bladder wall. The control group consisted of 12 healthy rats. Urodynamic examinations included contraction, elasticity, compliance, and urinary bladder motor activity. Hematocylin and eosin and Massons trichrome stains were used to evaluate muscle regeneration; histological data were digitally analyzed with the ImageJ tool. RESULTS The area of muscle bundles ranged from 5% to 25% or 32% to 41% in control versus reconstructed bladders, respectively. Among nine animals with reconstructed urinary bladders, urodynamic evaluation revealed bladder motor hyperactivity with regular (n = 4) or irregular (n = 1) storage and voiding phases, as well as proper bladder motor activity with a large bladder capacity (n = 1). No bladder contractility was recorded in one case and large stones developed in two animals, which made functional studies impossible. CONCLUSIONS Regenerated smooth muscle cells created an autonomic cell population that was poorly assimilated to the rest of the urinary bladder wall. The histological presence of a regenerated muscle layer did not guarantee proper urinary bladder function.

Chemoprevention of skin melanoma: facts and myths.

Melanoma is the most dangerous type of skin cancer. Despite the rise of public awareness, the incidence rate among the white population has been rising constantly for several decades. Systematic improvement in knowledge about the biology of pigment cells and molecular mechanisms of their neoplastic transformation has enhanced the possibility of melanoma chemoprevention. Hence, chemopreventive agents that prevent, inhibit, or reverse melanoma development are being investigated intensively. Among synthetic compounds, especially well studied are lipid-lowering drugs and cyclooxygenase inhibitors. Substances found in everyday diet, such as genistein, apigenin, quercetin, resveratrol, and curcumin may also have potential chemopreventive qualities. However, studies examining the chemopreventive activity of these compounds have shown widely varying results. Early reports on the possible chemopreventive activity of statins and fibrates were not proved by the results of randomized clinical trials. Similarly, case–control studies examining the influence of NSAIDs on the risk of melanoma do not confirm the antitumor activity of cyclooxygenase inhibitors. Further clinical trials involving carefully selected target populations as well as the identification of specific biomarkers of prognostic and predictive value seem to be essential for the evaluation of the chemopreventive activity of the studied substances.

Does aging of mesenchymal stem cells limit their potential application in clinical practice

Mesenchymal stem cells (MSCs) are in the center of attention of many investigators due to easy isolation from many tissues. MSC capability to differentiate into many cell types makes them a starting point of many new therapies, especially in tissue engineering. However, understanding the process of MSC aging is crucial for selecting donors for cellular therapies, which is necessary for successful treatment. Cell changes can be divided into three major groups. Changes which affect their proliferate rate, differentiation capability and genome stability lead to decrease of their usefulness in new therapies. There are many tools that can be used to describe and measure some features of aging in MSCs but the essence of this process is still unclear. The aim of this review is to take a deep look into the influence of donor age and in vitro aging on MSC properties.

Dialysis as a method of obtaining neutral collagen gels

Collagen gels are useful materials for medicine and tissue engineering. They are generally obtained by chemical cross-linking of the protein chains. However, other kinds of interactions can also stabilize the structure. In our investigations we employed dialysis against deionised water as a method of neutralization of collagen solution. This promoted the creation of stable, flexible, transparent gel composed only of collagen and water. The FTIR-ATR spectroscopy showed that changing pH of the solution caused organization of collagen chains into triple-helical motifs similar to native protein. As a result, thermal stability of the material improved and the surface was more polar than in case of collagen film obtained from acidic solution. The freeze-drying of the gel provided the relatively stiff, porous material, which returned to its original shape after deformation. We expect that the method of obtaining neutral collagen gels can be widely applied for preparation of scaffolds for tissue engineering.

Hair follicle stem cells can be driven into a urothelial-like phenotype: an experimental study.

The aim of this study was to show that conditioned medium might induce transdifferentiation of hair follicle stem cells into urothelial‐like cells. Several conditioned media and culture conditions (skeletal muscle cell conditioned medium, smooth muscle cell conditioned medium, fibroblast conditioned medium, transforming growth factor‐conditioned medium, urothelial cell conditioned medium, and co‐culture of hair follicle stem cells and urothelial cells) were used. The hair follicle stem cells phenotype from rat whisker hair follicles was checked by using flow cytometry and immunofluorescence. Cytokeratins 7, 8, 15 and 18 were used as markers. Urothelial cell conditioned medium increased the expression of urothelial markers (cytokeratin 7, cytokeratin 8, cytokeratin 18), whereas it decreased a hair follicle stem cells marker (cytokeratin 15) after 2 weeks of culture. This process depended on the time of cultivation. This medium was able to sustain the epithelial phenotype of the culture. Other media including a co‐culture system failed to induce similar changes. Smooth muscle conditioned medium resulted in a loss of cells in culture. Hair follicle stem cells are capable of differentiating into urothelial‐like cells in vitro when exposed to a bladder‐specific microenvironment.

Melanocyte stem cells: Biology and current aspects

Summary Epidermal stem cells have become an object of intensive research. The epidermis constitutes one of the main sources of stem cells and is a tissue of choice for use in exploring their biology. Stratified squamous epithelium (epidermis) possesses the capacity for self-renewal and repair due to the presence of epidermal stem cells (ESC). They have been identified within basal layer of the interfollicular epidermis (IFE), in the “bulge” of the hair follicles of rodents, and also in the human follicular bulge. Melanocyte stem cells (MSC) from hair follicles (precisely from the bulge region, which also contains epidermal stem cells) provide an attractive model for the study of stem cells and their regulation at the niche. This review summarizes the rapidly developing field of epidermal stem cell research and their application in regenerative medicine, paying particular attention to melanocyte stem cells, their biology and some of the processes that occur during hair graying and regeneration of the pigmentary system, as well as discussing how aged-associated changes in the melanocyte stem cells compartment impact hair graying. This review also includes differentiation of human skin stem cells into functional epidermal melanocytes.

Mesenchymal stem cells as a therapeutic tool in tissue and organ regeneration

Tissue engineering is an interdisciplinary field that offers new opportunities for regeneration of diseased and damaged tissue with the use of many different cell types,including adult stem cells. In tissue engineering and regenerative medicine the most popular are mesenchymal stem cells (MSCs) isolated from bone marrow. Bone marrow mesenchymal stem cells are a potential source of progenitor cells for osteoblasts, chondroblasts, adipocytes, skeletal muscles and cardiomyocytes. It has also been shown that these cells can differentiate into ecto- and endodermal cells, e.g. neuronal cells, glial cells, keratinocytes and hepatocytes. The availability of autologous MSCs, their proliferative potential and multilineage differentiation capacity make them an excellent tool for tissue engineering and regenerative medicine. The aim of this publication is to present characteristic and biological properties of mesenchymal stem cells isolated from bone marrow.

Collagen/elastin hydrogels cross-linked by squaric acid.

Hydrogels based on collagen and elastin are very valuable materials for medicine and tissue engineering. They are biocompatible; however their mechanical properties and resistance for enzymatic degradation need to be improved by cross-linking. Up to this point many reagents have been tested but more secure reactants are still sought. Squaric acid (SqAc), 3,4-dihydroxy 3-cyclobutene 1,2-dione, is a strong, cyclic acid, which reacts easily with amine groups. The properties of hydrogels based on collagen/elastin mixtures (95/5, 90/10) containing 5%, 10% and 20% of SqAc and neutralized via dialysis against deionized water were tested. Cross-linked, 3-D, transparent hydrogels were created. The cross-linked materials are stiffer and more resistant to enzymatic degradation than those that are unmodified. The pore size, swelling ability and surface polarity are reduced due to 5% and 10% of SqAc addition. At the same time, the cellular response is not significantly affected by the cross-linking. Therefore, squaric acid would be regarded as a safe, effective cross-linking agent.

In vitro optimization of the Gallus domesticus oviduct epithelial cells culture.

The aim of this experiment was to establish an efficient method for isolation and further culture in vitro of the normal chicken oviduct epithelial cells (COEC) for cell-based research models. Different factors were tested to optimize COEC primary culture for repeatable results: the origin of isolated cells (oviduct Infundibulum or Magnum section); the oviduct tissue dissociation procedure (mechanical scrapping or mincing), tissue digestion times (15, 30 and 45 min), the culture plates coating (colagene I, polystyrene surface or 3T3 feeder layer), the growth media (classic DMEM/Hams F12 and defined serum-free medium, Lonza Switzerland), incubation temperature (37 °C vs 41°C) and different cell seeding numbers: 0.2M, 0.5M and 1.0M cells/well. The COEC isolated by mincing the Infundibular neck and digestion of tissue for 30 min formed cell aggregates of bright colour and gave proliferating colonies of epithelial-like character which was the best result obtained from all applied procedures in our studies. The fibroblast-like cells considered as contaminants occurred only sporadically up to day 7 of culture. Seeding about 1M cells in 1 mL of serum-free medium onto 12-well dishes gave the optimal growth of colonies resulting in 5 to 7 confluent culture wells from a single oviduct sample. Feeder layer and collagen I did not improve adhesion of the COEC to the culture vessel. Adoption of 37 °C and 41 °C did not reveal apparent differences to the condition of cultured COEC. Cell differentiation and proliferation potential depends on number and replicative capacity of isolated progenitors. The progenitors are responsible for holoclones formation and good culture growth. The percentage of colonies developed from the cells isolated from Infundibulum was greater than that of other samples in our studies. We conclude that the model of COEC primary cultures from different segments of oviduct, in particular infundibulum, should be incorporated to the range of avian cells research as this work generates questions about undocumented sources of oviduct progenitor cells.