The transition of the dental histology course at the University of Texas Health Science Center at San Antonio Dental School was completed gradually over a five-year period. A pilot project was initially conducted to study the feasibility of integrating virtual microscopy into a traditional light microscopic lecture and laboratory course. Because of the difficulty of procuring quality calcified and decalcified sections of teeth, slides from the student loan collection in the oral histology block of the course were outsourced for conversion to digital images and placed on DVDs along with a slide viewer. The slide viewer mimicked the light microscope, allowing horizontal and vertical movement and changing of magnification, and, in addition, a feature to capture static images. In a survey, students rated the ease of use of the software, quality of the images, maneuverability of the images, and questions regarding use of the software, effective use of laboratory, and faculty time. Because of the positive support from the students, our entire student loan collection of 153 glass slides was subsequently converted to virtual images and distributed on an Apricorn pocket external hard drive. Students were asked to assess the virtual microscope over a four-year period. As a result of the surveys, light microscopes have been totally eliminated, and microscope exams have been replaced with project slide examinations. In the future, we plan to expand our virtual slides and incorporate computer testing.
Haptoglobin (Hp), a member of the acute-phase reactants, has long been known as a major hemoglobin-binding protein associated with hemoglobin catabolism. Recent studies indicate that another important biologic function of Hp is the modulation of the immune response. We found that Hp is expressed at high levels in specific cells, including alveolar macrophages and eosinophils in diseased or inflamed human lung tissues, but not in the normal lung. Expression of the human Hp gene was studied in two transgenic mouse lines carrying a 9-kb human Hp 2 gene. In both lines, the human Hp transgene was expressed constitutively in alveolar macrophages at a high level, whereas the endogenous mouse Hp was synthesized in airway epithelial cells. Expression of the human Hp transgene in lung cells was upregulated when the transgenic mice were treated with endotoxin. In humans and in Hp transgenic mice, human Hp messenger RNA was also detected in circulating eosinophils, but not in other blood cells. Our findings suggest that Hp is involved in a variety of lung inflammatory diseases, including respiratory allergy and asthma. The transgenic mouse line that overexpresses the human Hp gene in alveolar macrophages and eosinophils is a promising system for investigating the function of Hp in vivo during lung inflammation.
The iron-binding protein transferrin has major roles in transporting, delivering, and sequestering ferric ions acquired by body tissues. Yet, during aging, serum transferrin levels decrease in humans. Likewise, in transgenic mice carrying chimeric human transferrin transgenes, liver expression of transferrin transgenes decreases with age. The aging regulation is due to decreased gene transcription. Electrophoretic mobility shift assays and antibody-recognition have revealed the binding of 5' regulatory elements of the human transferrin gene by three YY1 proteins, called YY1, YY1-a, and YY1-b, and an Sp1-a transcription factor. An age-related increase in YY1-a and YY1-b binding activities and a decrease in Sp1-like binding activity were shown. Since Sp1 is a positive transcription factor and YY1 can be a negative transcription factor, the alterations in their binding with age could cause the decreased transcription of the human transferrin transgene, and also the age-related decreased serum transferrin levels in humans.
Ceruloplasmin (CP) is an important extracellular antioxidant and free radical scavenger. Although CP is expressed mainly in the liver, recent studies have identified the lung as another major site of CP synthesis. The sites and cell types that are responsible for CP expression in baboon and mouse lung are described. CP mRNA is detected in primordial bronchial epithelium in baboon fetuses by 60 days of gestation. At 140 days of gestation and thereafter, CP mRNA is found in airway epithelium and in the ductal cells of the submucosal glands. In developing and mature mice, CP mRNA is present in epithelial cells throughout the airway. In endotoxin-treated mice, the amount of CP mRNA increases several-fold in large airways but increases only moderately in small airways. This suggests that the high concentration of CP in the mucus lining of the upper airway, which serves to filter harmful substances, is particularly important during stressful conditions. Endotoxin treatment in mice also results in the induction of high levels of CP mRNA in a subset of alveolar wall cells. The data suggest that the airway epithelial cells are the major source of CP in the lung fluid and support ceruloplasmin's critical role in host defense against oxidative damage and infection in the lung.
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