Shigeru Morita scite author profile

Airway hyperresponsiveness (AHR), goblet cell metaplasia, and mucus overproduction are important features of bronchial asthma. To elucidate the molecular mechanisms behind these pulmonary pathologies, we examined for genes preferentially expressed in the lungs of a murine model of allergic asthma by using suppression subtractive hybridization (SSH). We identified a gene called gob-5 that had a selective expression pattern in the airway epithelium with AHR. Here, we show that gob-5, a member of the calcium-activated chloride channel family, is a key molecule in the induction of murine asthma. Intratracheal administration of adenovirus-expressing antisense gob-5 RNA into AHR-model mice efficiently suppressed the asthma phenotype, including AHR and mucus overproduction. In contrast, overexpression of gob-5 in airway epithelia by using an adenoviral vector exacerbated the asthma phenotype. Introduction of either gob-5 or hCLCA1, the human counterpart of gob-5, into the human mucoepidermoid cell line NCI-H292 induced mucus production as well as MUC5AC expression. Our results indicated that gob-5 may play a critical role in murine asthma, and its human counterpart hCLCA1 is therefore a potential target for asthma therapy.

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Increased Expression of the Human Ca^{2 +}-activated Cl⁻ Channel 1 (CaCC1) Gene in the Asthmatic Airway

Hoshino

Morita

Iwashita

et al. 2002

Am J Respir Crit Care Med

128

114

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Mucus overproduction is a clinical feature of asthma. Ca2+-activated Cl- channel 1 (CaCC1) has been identified as a protein that is expressed in intestinal epithelia and that plays an important role in fluid and electrolyte transport. Recently, its mouse counterpart, gob-5, was identified as a key molecule in the induction of murine asthma through mucus overproduction. To elucidate the relationship of CaCC1 to human asthma, we examined CaCC1 expression using real-time quantitative polymerase chain reaction analysis in bronchial tissues from patients with asthma and normal control subjects. The expression of CaCC1 was significantly upregulated in patients with bronchial asthma compared with control subjects. In situ hybridization and immunohistochemical analysis demonstrated that CaCC1 is located in the bronchial epithelium, especially in mucus-producing goblet cells. In vitro transfection of a CaCC1 expression vector into the human mucoepidermoid cell line, NCI-H292, increased mucus production and induced the MUC5AC gene. These results suggest that CaCC1 plays a direct role in mucus production and differentiation in goblet cells and may contribute to the pathogenesis of asthma through its mucus-inducing activity.

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Increased survival of muscle stem cells lacking the MyoD gene after transplantation into regenerating skeletal muscle

Asakura

Hirai

Kablar

et al. 2007

Proc. Natl. Acad. Sci. U.S.A.

110

114

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MyoD is a myogenic master transcription factor that plays an essential role in muscle satellite cell (muscle stem cell) differentiation. To further investigate the function of MyoD in satellite cells, we examined the transplantation of satellite cell-derived myoblasts lacking the MyoD gene into regenerating skeletal muscle. After injection into injured muscle, MyoD ؊/؊ myoblasts engrafted with significantly higher efficiency compared with wild-type myoblasts. In addition, MyoD ؊/؊ myoblast-derived satellite cells were detected underneath the basal lamina of muscle fibers, indicating the self-renewal property of MyoD ؊/؊ myoblasts. To gain insights into MyoD gene deficiency in muscle stem cells, we investigated the pathways regulated by MyoD by GeneChip microarray analysis of gene expression in wild-type and MyoD ؊/؊ myoblasts. MyoD deficiency led to down-regulation of many muscle-specific genes and up-regulation of some stem cell markers. Importantly, in MyoD ؊/؊ myoblasts, many antiapoptotic genes were up-regulated, whereas genes known to execute apoptosis were downregulated. Consistent with these gene expression profiles, MyoD ؊/؊ myoblasts were revealed to possess remarkable resistance to apoptosis and increased survival compared with wild-type myoblasts. Forced expression of MyoD or the proapoptotic protein Puma increased cell death in MyoD ؊/؊ myoblasts. Therefore, MyoD ؊/؊ myoblasts may preserve stem cell characteristics, including their resistance to apoptosis, expression of stem cell markers, and efficient engraftment and contribution to satellite cells after transplantation. Furthermore, our data offer evidence for improved therapeutic stem cell transplantation for muscular dystrophy, in which suppression of MyoD in myogenic progenitors would be beneficial to therapy by providing a selective advantage for the expansion of stem cells.apoptosis ͉ cell therapy ͉ microarrays ͉ muscular dystrophy ͉ satellite cell

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Near-infrared spectroscopic sensing system for on-line milk quality assessment in a milking robot

Kawasaki

Kawamura

Tsukahara

et al. 2008

Computers and Electronics in Agriculture

121

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A near-infrared (NIR) spectroscopic sensing system was constructed on an experimental basis. This system enabled NIR spectra of raw milk to be obtained in an automatic milking system (milking robot system) over a wavelength range of 600 nm to 1050 nm. Calibration models for determining three major milk constituents (fat, protein and lactose), somatic cell count (SCC) and milk urea nitrogen (MUN) of unhomogenized milk were developed, and the precision and accuracy of the models were validated. The coefficient of determination (r2) and standard error of prediction (SEP) of the validation set for fat were 0.95 and 0.25%, respectively. The values of r2 and SEP for lactose were 0.83 and 0.26%, those for protein were 0.72 and 0.15%, those for SCC were 0.68 and 0.28 log SCC/mL, and those for MUN were 0.53 and 1.50 mg/dL, respectively. These results indicate that the NIR spectroscopic system can be used to assess milk quality in real time in an automatic milking system. The system can provide dairy farmers with information on milk quality and physiological condition of an individual cow and, therefore, give them feedback control for optimizing dairy farm management. By using the system, dairy farmers will be able to produce high-quality milk and precision dairy farming will be realized

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Shigeru Morita

Role of gob-5 in mucus overproduction and airway hyperresponsiveness in asthma

Increased Expression of the Human Ca^{2 +}-activated Cl⁻ Channel 1 (CaCC1) Gene in the Asthmatic Airway

Increased survival of muscle stem cells lacking the MyoD gene after transplantation into regenerating skeletal muscle

Near-infrared spectroscopic sensing system for on-line milk quality assessment in a milking robot

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Shigeru Morita

Role of gob-5 in mucus overproduction and airway hyperresponsiveness in asthma

Increased Expression of the Human Ca2 +-activated Cl− Channel 1 (CaCC1) Gene in the Asthmatic Airway

Increased survival of muscle stem cells lacking the MyoD gene after transplantation into regenerating skeletal muscle

Near-infrared spectroscopic sensing system for on-line milk quality assessment in a milking robot

Contact Info

Product

Resources

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Increased Expression of the Human Ca^{2 +}-activated Cl⁻ Channel 1 (CaCC1) Gene in the Asthmatic Airway