Scar-free wound healing and regeneration in the leopard gecko (Eublepharis macularius)

Delorme, Stephanie

28 October 2011

Scar-free wound healing and regeneration are uncommon phenomena permitting the near complete restoration of damaged tissues, organs and structures. Although rare in mammals, many lizards are able to undergo scarless healing and regeneration following loss of the tail. This study investigated the spontaneous and intrinsic capacity of the leopard gecko (Eublepharis macularius) tail to undergo scar-free wound healing and regeneration following two different forms of tail loss: autotomy, a voluntary and evolved mechanism of tail shedding at fracture planes; and surgical amputation, involuntary loss of the tail outside the fracture planes. Furthermore, I investigated the ability of the regenerate tail to regenerate by amputating a regenerate tail (previously lost by autotomy). To investigate these phenomena I imaged wound healing and regenereating tails daily (following autotomy and amputation) to document gross morphological changes. I used histochemistry to document tissue structure and immunohistochemistry to determine the tissue/cellular location of my five proteins of interest (PCNA, MMP-9, WE6, α-sma, TGF-β3). Each of these proteins of interest has been previously documented during wound healing and/or regeneration in other wound healing/regeneration model organisms (e.g. mice, urodeles, lizards, zebrafish). Scar-free wound healing and regeneration occurred following autotomy, amputation of the original tail and amputation of the regenerate tail, indicating that the leopard gecko tail has an instrinsic scar-free wound healing and regenerative capacity that is independent of the mode of tail loss (autotomy or amputation). Furthermore immunohistochemistry revealed a conserved sequence and location of the expression of the five proteins of interest following both forms of tail loss. These results provide the basis for further studies investigating scar-free wound healing and regeneration in a novel amniote model, the leopard gecko. / NSERC

Regeneration

Wound healing

Leopard gecko

Eublepharis macularius

Autotomy

Tail amputation

Blastema

Wound epithelium

Cartilage regeneration

Alpha smooth muscle actin

WE6

Transforming growth factor beta 3

Proliferating cell nuclear antigen

Matrix metalloproteinase 9

Quantificação das células estreladas ativadas / miofibroblastos e análise da apoptose das células do fígado durante a terapia celular na fibrose hepática em ratos / Quantification of actived stellate cells / myofibroblasts and analysis of apoptosis of liver cells during cell therapy in liver fibrosis in rats

Dalvaci da Cunha Lira Neves

27 July 2011

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / A fibrose hepática é o resultado de uma resposta cicatrizante frente a repetidas lesões no fígado, e é caracterizada pelo acúmulo excessivo de proteínas da matriz extracelular (MEC) no parênquima hepático, incluindo colágeno, fibronectina, elastina, laminina e proteoglicanos, com a participação de diferentes populações celulares do fígado. As principais células responsáveis pela síntese de proteínas da MEC na fibrose hepática são as células estreladas hepáticas ativadas e os miofibroblastos, que surgem após estímulo inflamatório e são caracterizadas pela expressão de alfa-actina de músculo liso (α-SMA). Sabe-se que durante a progressão da fibrose hepática, ocorre a morte de hepatócitos e sua substituição por células fibrogênicas α-SMA+. A apoptose dessas células fibrogênicas é de grande relevância para a regressão da fibrose e regeneração hepática. Nos últimos anos, a terapia com células tronco de medula óssea tem sido utilizada para estimular a regeneração hepática em diferentes modelos experimentais e protocolos clínicos. A fração mononuclear da medula óssea adulta possui duas populações de células-tronco importantes no tratamento de diversas doenças hepáticas: células-tronco hematopoiéticas e células-tronco mesenquimais. O objetivo deste estudo foi analisar a expressão de α-SMA e o processo de apoptose de células hepáticas durante a fibrose hepática induzida por ligadura do ducto biliar (LDB) e após o transplante de células mononucleares de medula óssea (CMMO). Os fígados foram coletados de ratos dos seguintes grupos: normal, 14 dias de LDB, 21 dias de LDB e animais que receberam CMMO após 14 dias de LDB, e foram analisados após 7 dias (totalizando 21 dias de LDB). Para quantificar a expressão de α-SMA por células fibrogênicas nos grupos experimentais, foi realizada imunoperoxidase para α-SMA, seguida de morfometria no programa Image Pro Plus. Para analisar a apoptose nas células hepáticas, foi realizada imunoperoxidase e Western Blotting (WB) para caspase-3 (proteína apoptótica) e imunofluorescência com dupla-marcação para caspase-3 e α-SMA, seguida de observação em microscópio confocal. Os resultados da quantificação de α-SMA por morfometria mostraram que a expressão de α-SMA aumentou significativamente 14 e 21 dias após a LDB. Entretanto, essa expressão diminuiu significativamente no grupo tratado com CMMO, que apresentou parênquima hepático mais preservado em relação ao grupo com 21 dias de LDB. Os resultados de imunoperoxidase, WB e microscopia confocal para expressão de caspase-3 demonstraram que essa proteína diminuiu nos animais fibróticos com 14 e 21 dias de LDB com relação ao grupo normal, e estava significativamente elevada no grupo tratado com CMMO. A análise por microscopia confocal demonstrou que algumas células coexpressaram α-SMA e caspase-3 nos animais tratados com CMMO, sugerindo a morte de células fibrogênicas e remodelamento do parênquima hepático. / Hepatic fibrosis is the result of a scarring response due to continued injury to the liver, and is featured by excessive accumulation of extracellular matrix (MEC) proteins in hepatic parenchyma. These proteins include collagen, fibronectin, elastin, laminin and proteoglicans, along with the participation of different cell populations within the liver. The main cells responsible for the synthesis of MEC proteins are activated hepatic stellate cells and myofibroblasts, which appear after inflammatory stimuli and are characterized by the expression of alpha-smooth muscle actin (α-SMA). It is known that hepatic fibrosis progression is accompanied by hepatocyte death and its substitution by α-SMA+ fibrogenic cells. Therefore, apoptosis of these fibrogenic cells is of main relevance to fibrosis regression and hepatic regeneration. In the later years, bone marrow stem cell therapy has been used to stimulate hepatic regeneration in different experimental models and clinical protocols. The adult bone marrow mononuclear fraction contains two stem cell populations particularly important in the treatment of diverse hepatic diseases: hematopoietic stem cells and mesenchymal stem cells. The aim of this study was to analyze α-SMA expression and the apoptotic process in hepatic cells during hepatic fibrosis induced by bile duct ligation (BDL) and after bone marrow mononuclear cell (BMMC) transplantation. Livers were collect from rats of the following groups: normal, 14 days of BDL, 21 days of BDL and rats that received BMMC 14 days after BDL and were analyzed after 7 days (total of 21 days of BDL). To quantify α-SMA expression by fibrogenic cells in the experimental groups, immunoperoxidase to α-SMA followed by morphometry in the Image Pro Plus software was performed. To analyze apoptosis in hepatic cells, immunoperoxidase and western blotting (WB) against caspase-3 (apoptotic protein) were used, along with double immunofluorescence against caspase-3 and α-SMA to confocal microscopy analysis. Results of α-SMA quantification by morphometry showed that α-SMA expression increased significantly 14 and 21 days after BDL. However, this expression was significantly decreased in the BMMC treated group, which presented a more preserved hepatic parenchyma in relation to the group with 21 days of BDL. Immunoperoxidase, WB and confocal microscopy results showed that caspase-3 is decreased in fibrotic livers with 14 and 21 days of BDL in comparison to normal group, and was significantly augmented in the BMMC treated group. Confocal microscopy analysis showed that were cells coexpressing α-SMA and caspase-3 in rats treated with BMMC, suggesting fibrogenic cells death and hepatic remodeling.

Fibrose hepática

Células mononucleares de medula óssea

Alfa-actina de músculo liso

Caspase-3

Apoptose

Cirrose hepática

Células - tronco

Fígado

Regeneração hepática

Hepatic fibrosis

Bone marrow mononuclear cells

Alpha-smooth muscle actin

Caspase-3

Apoptosis

FISIOLOGIA

Quantificação das células estreladas ativadas / miofibroblastos e análise da apoptose das células do fígado durante a terapia celular na fibrose hepática em ratos / Quantification of actived stellate cells / myofibroblasts and analysis of apoptosis of liver cells during cell therapy in liver fibrosis in rats

Dalvaci da Cunha Lira Neves

27 July 2011

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / A fibrose hepática é o resultado de uma resposta cicatrizante frente a repetidas lesões no fígado, e é caracterizada pelo acúmulo excessivo de proteínas da matriz extracelular (MEC) no parênquima hepático, incluindo colágeno, fibronectina, elastina, laminina e proteoglicanos, com a participação de diferentes populações celulares do fígado. As principais células responsáveis pela síntese de proteínas da MEC na fibrose hepática são as células estreladas hepáticas ativadas e os miofibroblastos, que surgem após estímulo inflamatório e são caracterizadas pela expressão de alfa-actina de músculo liso (α-SMA). Sabe-se que durante a progressão da fibrose hepática, ocorre a morte de hepatócitos e sua substituição por células fibrogênicas α-SMA+. A apoptose dessas células fibrogênicas é de grande relevância para a regressão da fibrose e regeneração hepática. Nos últimos anos, a terapia com células tronco de medula óssea tem sido utilizada para estimular a regeneração hepática em diferentes modelos experimentais e protocolos clínicos. A fração mononuclear da medula óssea adulta possui duas populações de células-tronco importantes no tratamento de diversas doenças hepáticas: células-tronco hematopoiéticas e células-tronco mesenquimais. O objetivo deste estudo foi analisar a expressão de α-SMA e o processo de apoptose de células hepáticas durante a fibrose hepática induzida por ligadura do ducto biliar (LDB) e após o transplante de células mononucleares de medula óssea (CMMO). Os fígados foram coletados de ratos dos seguintes grupos: normal, 14 dias de LDB, 21 dias de LDB e animais que receberam CMMO após 14 dias de LDB, e foram analisados após 7 dias (totalizando 21 dias de LDB). Para quantificar a expressão de α-SMA por células fibrogênicas nos grupos experimentais, foi realizada imunoperoxidase para α-SMA, seguida de morfometria no programa Image Pro Plus. Para analisar a apoptose nas células hepáticas, foi realizada imunoperoxidase e Western Blotting (WB) para caspase-3 (proteína apoptótica) e imunofluorescência com dupla-marcação para caspase-3 e α-SMA, seguida de observação em microscópio confocal. Os resultados da quantificação de α-SMA por morfometria mostraram que a expressão de α-SMA aumentou significativamente 14 e 21 dias após a LDB. Entretanto, essa expressão diminuiu significativamente no grupo tratado com CMMO, que apresentou parênquima hepático mais preservado em relação ao grupo com 21 dias de LDB. Os resultados de imunoperoxidase, WB e microscopia confocal para expressão de caspase-3 demonstraram que essa proteína diminuiu nos animais fibróticos com 14 e 21 dias de LDB com relação ao grupo normal, e estava significativamente elevada no grupo tratado com CMMO. A análise por microscopia confocal demonstrou que algumas células coexpressaram α-SMA e caspase-3 nos animais tratados com CMMO, sugerindo a morte de células fibrogênicas e remodelamento do parênquima hepático. / Hepatic fibrosis is the result of a scarring response due to continued injury to the liver, and is featured by excessive accumulation of extracellular matrix (MEC) proteins in hepatic parenchyma. These proteins include collagen, fibronectin, elastin, laminin and proteoglicans, along with the participation of different cell populations within the liver. The main cells responsible for the synthesis of MEC proteins are activated hepatic stellate cells and myofibroblasts, which appear after inflammatory stimuli and are characterized by the expression of alpha-smooth muscle actin (α-SMA). It is known that hepatic fibrosis progression is accompanied by hepatocyte death and its substitution by α-SMA+ fibrogenic cells. Therefore, apoptosis of these fibrogenic cells is of main relevance to fibrosis regression and hepatic regeneration. In the later years, bone marrow stem cell therapy has been used to stimulate hepatic regeneration in different experimental models and clinical protocols. The adult bone marrow mononuclear fraction contains two stem cell populations particularly important in the treatment of diverse hepatic diseases: hematopoietic stem cells and mesenchymal stem cells. The aim of this study was to analyze α-SMA expression and the apoptotic process in hepatic cells during hepatic fibrosis induced by bile duct ligation (BDL) and after bone marrow mononuclear cell (BMMC) transplantation. Livers were collect from rats of the following groups: normal, 14 days of BDL, 21 days of BDL and rats that received BMMC 14 days after BDL and were analyzed after 7 days (total of 21 days of BDL). To quantify α-SMA expression by fibrogenic cells in the experimental groups, immunoperoxidase to α-SMA followed by morphometry in the Image Pro Plus software was performed. To analyze apoptosis in hepatic cells, immunoperoxidase and western blotting (WB) against caspase-3 (apoptotic protein) were used, along with double immunofluorescence against caspase-3 and α-SMA to confocal microscopy analysis. Results of α-SMA quantification by morphometry showed that α-SMA expression increased significantly 14 and 21 days after BDL. However, this expression was significantly decreased in the BMMC treated group, which presented a more preserved hepatic parenchyma in relation to the group with 21 days of BDL. Immunoperoxidase, WB and confocal microscopy results showed that caspase-3 is decreased in fibrotic livers with 14 and 21 days of BDL in comparison to normal group, and was significantly augmented in the BMMC treated group. Confocal microscopy analysis showed that were cells coexpressing α-SMA and caspase-3 in rats treated with BMMC, suggesting fibrogenic cells death and hepatic remodeling.

Fibrose hepática

Células mononucleares de medula óssea

Alfa-actina de músculo liso

Caspase-3

Apoptose

Cirrose hepática

Células - tronco

Fígado

Regeneração hepática

Hepatic fibrosis

Bone marrow mononuclear cells

Alpha-smooth muscle actin

Caspase-3

Apoptosis

FISIOLOGIA

Histomorfologické změny chrupavkových tkání za patologických stavů i po transplantaci u lidí a v experimentu / Histomorphological Changes in Normal and Pathological Cartilage Tissues and after their Experimental and Clinical Transplantation

Kaňa, Radim

January 2011

1 Abstract Introduction Autologous transplants of the cartilage tissue from the pinna is commonly used in reconstructive surgery of the nasal skeleton. The present study used animal models to elucidate responses of the auricular cartilage to its damage or transplantation to ectopic sites. Histomorphological analysis of changes observed in auricular cartilage including immunohistochemical study of different isoforms of actin and S-100 proteins was performed. Human articular cartilage prepared by in vitro cultivation using artificial scaffolds was also studied after its transplantation. Aims of the study The aim was to study histological changes and expression of chondrocytic markers (α- SMA and S-100 proteins) in intact, artificially traumatised, or in a human auricular cartilage cultivated in culture medium. An attempt to grow human auricular cartilage chondrocytes implanted in vitro into various types of three dimensional scaffolds aimed at testing chondrocyte survival and phenotype both in the culture and after transplantation to immunodeficient mice. A human auricular cartilage transplanted into the nasal skeleton of patients during a reconstruction surgery should be submitted to a histomorphological examination. Research assumed also comparison of the auricular cartilage responses to a damage,...

Histomorfologické změny chrupavkových tkání za patologických stavů i po transplantaci u lidí a v experimentu / Histomorphological Changes in Normal and Pathological Cartilage Tissues and after their Experimental and Clinical Transplantation

Kaňa, Radim

January 2011

1 Abstract Introduction Autologous transplants of the cartilage tissue from the pinna is commonly used in reconstructive surgery of the nasal skeleton. The present study used animal models to elucidate responses of the auricular cartilage to its damage or transplantation to ectopic sites. Histomorphological analysis of changes observed in auricular cartilage including immunohistochemical study of different isoforms of actin and S-100 proteins was performed. Human articular cartilage prepared by in vitro cultivation using artificial scaffolds was also studied after its transplantation. Aims of the study The aim was to study histological changes and expression of chondrocytic markers (α- SMA and S-100 proteins) in intact, artificially traumatised, or in a human auricular cartilage cultivated in culture medium. An attempt to grow human auricular cartilage chondrocytes implanted in vitro into various types of three dimensional scaffolds aimed at testing chondrocyte survival and phenotype both in the culture and after transplantation to immunodeficient mice. A human auricular cartilage transplanted into the nasal skeleton of patients during a reconstruction surgery should be submitted to a histomorphological examination. Research assumed also comparison of the auricular cartilage responses to a damage,...