Collagenolytic enzymes produced by fungi: a systematic review

Abstract Specific proteases capable of degrading native triple helical or denatured collagen have been required for many years and have a large spectrum of applications. There are few complete reports that fully uncover production, characterization and purification of fungi collagenases. In this review, authors searched through four scientific on line data bases using the following keywords (collagenolytic OR collagenase) AND (fungi OR fungus OR fungal) AND (production OR synthesis OR synthesize) AND (characterization). Scientific criteria were adopted in this review to classify found articles by score (from 0 to 10). After exclusion criteria, 21 articles were selected. None obtained the maximum of 10 points defined by the methodology, which indicates a deficiency in studies dealing simultaneously with production, characterization and purification of collagenase by fungi. Among microorganisms studied the non-pathogenic fungi Penicillium aurantiogriseum and Rhizoctonia solani stood out in volumetric and specific collagenase activity. The only article found that made sequencing of a true collagenase showed 100% homology with several metalloproteinases fungi. A clear gap in literature about collagenase production by fungi was verified, which prevents further development in the area and increases the need for further studies, particularly full characterization of fungal collagenases with high specificity to collagen.

Proposição de uma nova metodologia para isolamento e cultivo de células-tronco mesenquimais derivadas do tecido adiposo / A new methodology proposition for isolation and culture of adipose-derived mesenchymal stem cells

Introdução: As células-tronco mesenquimais (CTM) têm despertado interesse de vários grupos de pesquisa em função do grande potencial de aplicabilidade em terapia celular e medicina regenerativa. Nesse contexto, o tecido adiposo vem recebendo grande destaque como importante fonte para obtenção de CTM. Os protocolos utilizados atualmente para o isolamento das células-tronco derivadas do tecido adiposo (ADSC) empregam, de forma geral, o método de digestão enzimática com colagenase extraída de bactéria (Clostridium histolyticun), que pode conter contaminantes, como endotoxinas e outros peptídeos que, eventualmente, poderão resultar em reações adversas nos procedimentos de terapia celular em pacientes humanos. Objetivo: Pretendeu-se no presente estudo adequar e propor uma nova abordagem empregando a metodologia de dissociação mecânica para isolamento de CTM derivadas de tecido adiposo de ratos. Métodos: As células cultivadas foram analisadas quanto ao potencial de adesão, proliferação e tempo de duplicação celular, por meio de uma curva de crescimento. As células isoladas e cultivadas a partir do tecido adiposo foram também analisadas quanto ao potencial de diferenciação in vitro nas linhagens adipogênica, condrogênica e osteogênica. Resultados: Os resultados mostraram que o tempo de duplicação (velocidade de crescimento) da população celular isolada por dissociação mecânica é mais expressivo quando comparado com a técnica de digestão enzimática. As células isoladas do tecido adiposo apresentaram potencial de diferenciação nas linhagens osteogênica, condrogênica e adipogênica. Conclusão: Os resultados obtidos permitem concluir que a metodologia de dissociação mecânica apresenta-se como uma alternativa viável, de baixo custo e, como tal, extremamente promissora no sentido de permitir que a colagenase de origem bacteriana (Clostridium histolyticun) torne-se um componente prescindível para isolamento e cultivo de células provenientes do tecido adiposo.

Background: Mesenchymal stem cells (MSCs) have attracted interest of several research groups due to the large potential applicability in cell therapy and regenerative medicine. In this context, adipose tissue has received high profile as an important source in order to obtain MSC. The protocols currently suggested for the isolation and culture of adipose- -derived stem cells (ADSC) utilize, in general, the enzymatic digestion method with bacterial collagenase (Clostridium histolyticun) which may contain contaminants such as endotoxin and other peptides that eventually may result in adverse reactions in the cell therapy procedures in human patients. Objective: In this context, it was intended in this study to propose a new methodological approach of mechanical dissociation for isolating and culture of adipose-derived mesenchymal stem cells. Methods: The cultured cells were analyzed for potential adhesion, proliferation and cell doubling time, through a growth curve lineages The cells were also analyzed according to potential for differentiation in adipogenic, chondrogenic and osteogenic lineages. Results: The results showed that the doubling time of the cell population isolated by mechanical dissociation is faster when compared to the enzymatic digestion technique. The isolated cells from adipose tissues howed potential for differentiation in cell lineages osteogenic, adipogenic and chondrogenic. Conclusion: The obtained results allow us to conclude that the methodology of mechanical dissociation, presented in this paper, is a viable, low cost and therefore an extremely promising alternative in order to permit that the bacterial collagenase, from Clostridium histolyticun, become a dispensable component for isolation and cultivation of adipose-derived stem cells.