PAX7-FKHR fusion gene inhibits myogenic differentiation via NF-kappaB upregulation.

OBJECTIVE: Alveolar rhabdomyosarcomas (ARMS) are characterised by a PAX3/7-FKHR translocation, which is presumed to promote a differentiation arrest in the myogenic lineage, in which setting secondary genetic events occur, resulting in sarcomagenesis. The aim of this study was to identify the mechanism by which PAX3/7-FKHR expression results in a myogenic differentiation block, as discrete from the secondary genetic events that complete the sarcomagenic process. METHODS: We performed a novel differential gene expression analysis comparing normal mesenchymal stem cells with previously generated non-tumorigenic mesenchymal stem cells expressing the PAX7-FKHR fusion gene, as well as with a known tumorigenic, PAX7-FKHR-expressing ARMS cell line, CW9019. RESULTS: This novel analysis uncovered the upregulation of the NF-kappaB pathway as a function of PAX3/7-FKHR expression, but distinct from the secondary sarcomagenic process; thus implicating NF-kappaB as a mediator of the PAX3/7-FKHR differentiation block. We further show that NF-kappaB activity is upregulated in PAX7-FKHR cells when compared to parental MSCs due to upregulation of the PI3K/AKT pathway. In addition we show that NF-kappaB inhibits myogenesis via activation of cyclinD1/ cdk4 complexes, which sequester MyoD1, a key myogenic transcription factor. CONCLUSIONS: Our results highlight the importance of the NF-kappaB pathway in myogenesis and sarcomagenesis and suggest that this pathway may be one of the potential therapeutic targets in the treatment of ARMS.

Anatomical features of the urethra and urinary bladder catheterization in female mice and rats. An essential translational tool.

PURPOSE: To present fundamental anatomical aspects and technical skills necessary to urethra and urinary bladder catheterization in female mice and rats. METHODS: Urethral and bladder catheterization has been widely utilized for carcinogenesis and cancer research and still remains very useful in several applications: from toxicological purposes as well as inflammatory and infectious conditions to functional aspects as bladder dynamics and vesicoureteral reflux, among many others. RESULTS: Animal models are in the center of translational research and those involving rodents are the most important nowadays due to several advantages including human reproducibility, easy handling and low cost. CONCLUSIONS: Although technical and anatomical pearls for rodent urethral and bladder access are presented as tackles to the advancement of lower urinary tract preclinical investigation in a broaden sight, restriction to female animals hampers the male microenvironment, demanding future advances.

Anatomical features of the urethra and urinary bladder catheterization in female mice and rats. An essential translational tool / Características anatômicas da cateterização da uretra e bexiga de camundongos e ratos fêmeas. Instrumento essencial na pesquisa pré clínica

PURPOSE: To present fundamental anatomical aspects and technical skills necessary to urethra and urinary bladder catheterization in female mice and rats. METHODS: Urethral and bladder catheterization has been widely utilized for carcinogenesis and cancer research and still remains very useful in several applications: from toxicological purposes as well as inflammatory and infectious conditions to functional aspects as bladder dynamics and vesicoureteral reflux, among many others. RESULTS: Animal models are in the center of translational research and those involving rodents are the most important nowadays due to several advantages including human reproducibility, easy handling and low cost. CONCLUSIONS: Although technical and anatomical pearls for rodent urethral and bladder access are presented as tackles to the advancement of lower urinary tract preclinical investigation in a broaden sight, restriction to female animals hampers the male microenvironment, demanding future advances.

OBJETIVO: Apresentar aspectos anatômicos fundamentais e habilidades técnicas necessárias para cateterismo da uretra e bexiga em ratos e camundongos fêmeas. MÉTODOS: Cateterismo vesical tem sido amplamente utilizado na pesquisa do câncer e carcinogênese, além de várias outras aplicações, desde fins toxicológicos, condições inflamatórias e infecciosas até aspectos funcionais como a dinâmica vesical e refluxo vesico-ureteral, entre muitos outros. RESULTADOS: Os modelos animais estão no centro da investigação de translação e os roedores são os mais importantes devido a várias vantagens, incluindo reprodutibilidade humana, o fácil manuseio e baixo custo. CONCLUSÕES: Apesar de permitir o desenvolvimento da investigação pré-clínica do trato urinário inferior, o modelo se restringe aos animais do sexo feminino, de modo que avanços futuros são necessários.