An in Vivo Doxycycline-Controlled Expression System for Functional Studies of the Retina.

PURPOSE: Transgenic mice were developed that express tetracycline-controlled transactivator 1 (tTA1) specifically in photoreceptor cells. In these mice the transcription of the gene of interest can be easily inactivated in the retina in a short time frame. METHODS: A construct was prepared containing tTA1 under control of the murine rhodopsin regulatory region. This construct was used for the generation of transgenic mice. In situ hybridization was performed to study the distribution of the transactivator in the retina. The activity of the transactivator was analyzed by mating the lines with a luciferase reporter transgenic mouse. tTA1 activity and doxycycline's ability to block it were analyzed by luciferase assay. The effects of tTA1 on the retina were assessed by histology and electrophysiology. RESULTS: Two transgenic lines were developed that specifically express tTA1 in photoreceptor cells. The time course of transgene expression replicated transcription of endogenous rhodopsin. tTA1 was not toxic to the retina. Transactivator activity was blocked readily by doxycycline. CONCLUSIONS: An expression system for photoreceptor cells was generated to drive transcription in a cell-specific and time-controllable manner. This system is suitable for the study of factors involved in retinal biology and of mutant forms of genes involved in retinal diseases

ENZYME- AND IMMUNO-FIA-CONTROL OF ANIMAL CELL CULTURES

Three enzyme sensors (for glucose, lactate and glutamine) have been coupled simultaneously with a flow-injection analysis device on-line with bioreactors harboring monoclonal antibody and interleukin-2 producing cell lines. Two approaches for FIA-coupled immunosensors were demonstrated for detection of alpha-interferon

Electroretinography as a screening method for mutations causing retinal dysfunction in mice.

PURPOSE. To detect mice with hereditary retinal impairment, a high-throughput electroretinography (ERG) screening system was established. METHOD. Mice from eight different strains without known retinal disorders (102, 129/Svj, AKR, C57BL/6j, C5713L/6JIco, CBA/CaJ, and DBA/2NCrlBR) and one control strain with retinal degeneration (C3HeB/FcJ) were fixed on a specially constructed sled, ERG electrodes were placed on the cornea, and mice were moved into a Ganzfeld stimulator. From a luminance range of 0.0125 to 500 cd-s/m(2) in a pretest series two levels (5 and 125 cd-s/m(2)) were chosen to shorten examination times. The root mean square (RMS) of the ERG-recording was analyzed to detect animals with abnormal retinal function. ERG responses of the left and right eyes were compared in amplitudes and implicit times of the a- and b-waves. Statistical analysis of the latter parameters was performed in all wild-type animals. Histology was performed on selected mice. RESULTS. ERG recordings of individual animals for the left and right eye revealed good agreement in amplitudes and implicit times of the a- and b-waves (P < 0.05). Comparison of these parameters among the wild-type strains showed several differences. Evaluation of the RMS revealed, in addition to the C3HeB/FeJ mice, a subgroup of mice within the 129/Svj strain with abnormal retinal function. Molecular analysis of these mice demonstrated the presence of the same retroviral insertion in the Pde6b gene, which is causative of the Pde6b(rd1) allele carried in C3HeB/FeJ mice. Histologic analysis demonstrated good correlation between retinal electrophysiology and morphology. CONCLUSIONS. The present results demonstrate the feasibility of ERG for screening a large number of mice to detect animals with functional retinal impairment

Identification of mouse crystallins in 2D protein patterns by sequencing and mass spectrometry. Application to cataract mutants

AbstractThe eye lens proteins of the mouse were separated into 1940 polypeptide spots by two-dimensional electrophoresis in large gels. All 16 crystallins ubiquitous in mammals were identified by protein sequencing and mass spectrometry except for (γ)-F, which shows an almost identical sequence with (γ)-E. Two crystallins, (β)-A2 and (γ)-S, were shown for the first time to occur in the mouse lens. An investigation of the murine cataract mutant Cat2nop ((γ)-B gene) demonstrated that a monogenic mutation might affect a broad spectrum of proteins

Efeitos do ultra-som terapêutico contínuo sobre a proliferação e viabilidade de células musculares C2C12 Effects of continuous therapeutic ultrasound on proliferation and viability of C2C12 muscle cells

O ultra-som terapêutico (US) é um recurso bioestimulante utilizado para propiciar reparo muscular de melhor qualidade e menor duração, mas o potencial terapêutico do US contínuo não está totalmente estabelecido. O objetivo deste trabalho foi avaliar o efeito do US contínuo sobre a proliferação e viabilidade de células musculares precursoras (mioblastos C2C12). Mioblastos C2C12 foram cultivados em meio de cultura contendo 10% de soro fetal bovino e irradiados com US contínuo nas freqüências de 1 e 3 MHz nas intensidades de 0,2 e 0,5 W/cm2, durante 2 e 5 minutos. A viabilidade e proliferação celular foram avaliadas após 24, 48 e 72 h de incubação. Grupos não-irradiados serviram como controle. Foram realizados experimentos independentes em cada condição acima, e os dados obtidos submetidos à análise estatística. Os resultados mostram que não houve diferença estatisticamente significativa na proliferação e viabilidade celular entre os mioblastos tratados com US e as culturas controles após os diferentes períodos de incubação, em todos os parâmetros avaliados. Conclui-se que o US contínuo, nos parâmetros avaliados, não foi capaz de alterar a proliferação e viabilidade dos mioblastos.<br>Therapeutic ultrasound (US) is a biophysical stimulation resource widely used in order to promote better, faster muscle repair, but the effectiveness of continuous US in treating injuries is not fully established. The aim of the present in vitro study was to assess the effects of continuous ultrasound on viability and proliferation of skeletal muscle precursor cells (C2C12 myoblasts). C2C12 myoblasts were cultured in a medium containing 10% foetal bovine serum and irradiated with continuous ultrasound at 1 and 3 MHz frequencies, at intensities of 0.2 and 0.5 W/cm² for 2 and 5 minutes. Cell viability and proliferation were assessed after different incubation periods (24, 48 and 72 h). Non-irradiated groups served as control and data were statistically analysed. Results showed that no significant differences in cell viability or proliferation could be found between ultrasound-treated myoblasts and control cultures under all test parameters and durations. Hence continuous ultrasound, at the used parameters, was unable to alter myoblast proliferation and viability