Transgenic mice expressing IFN-gamma in pancreatic beta-cells are resistant to streptozotocin-induced diabetes

In 28 adult Ins-IFN-gamma transgenic mice, injection of high doses of streptozotocin (STZ; first injection, 300 microgram/g body weight; second injection, 200 microgram/g body weight 4 h later) failed to induce severe hyperglycemia. To the contrary, 28 BALB/c mice developed diabetes mellitus after identical injections of STZ. Because the STZ-induced islet damage was partially inhibited in Ins-IFN-gamma transgenic mice, their glycemia levels became normal 4 days after STZ administration. Both transgenic and BALB/c mice lost weight after receiving STZ, but the body weights of transgenic mice then returned to pretreatment levels in a nearly parallel manner with the glycemia. Immunolabeling with insulin identified an unusual spreading pattern of insulin immunoreactivity. Ultrastructural observations confirmed that beta-cell necrosis and degranulation were more severe in STZ-treated BALB/c than in Ins-IFN-gamma transgenic mice. Moreover, regeneration of pancreatic duct cells and islet neogenesis were observed in the transgenic mice. Therefore, after STZ treatment, the Ins-IFN-gamma transgenic mice apparently were resistant to the induction of severe diabetes, whereas their BALB/c age-matched counterparts succumbed to the disease.

Prevalence of hypertension and its trends in Chinese populations

The third nation-wide survey of blood pressure level and hypertension was carried out in China in 1991. In total, 950,356 residents aged > or = 15 years were examined. Sampling population were composed of half urban and half rural from 27 provinces or autonomous regions and three municipalities. The results showed that: (1) the age-adjusted prevalence rate of hypertension (systolic blood pressure > or = 140 mmHg or diastolic blood pressure > or = 90 mmHg) was 11.26% (male 12.15%, female 10.32%) and the definite hypertension rate (systolic blood pressure > or = 160 mmHg or diastolic blood pressure > or = 95 mmHg, or on medication) was 5.29% (male 5.38%, female 5.21%); rate of borderline hypertension was evaluated from 2.82% to 6.15% during the 10-year period from 1979/1980 to 1991; (2) the prevalence rate was progressively increased with age, especially after age 35; prevalence rates were generally higher in men than women before about age 44, however by age 60, women had a higher prevalence of hypertension; (3) a general trend of decrease in prevalence from north-eastern to south-western China was confirmed; (4) there were significantly lower rates in rural than in urban areas. Results of preliminary analysis for prevalence of hypertension among different occupations, nationalities, and educational levels were presented.

Treatment of IFN-gamma transgenic mice with anti-IFN-gamma reveals the remodeling capacity of the adult pancreas

Pancreatic expression of gamma-interferon (IFN-gamma) initiates a cascade of pathogenic changes that include pancreatic inflammation, islet cell destruction, hyperglycemia, and islet regeneration. In this study, we explore the developmental plasticity of the adult pancreas and particularly its ability to return to normoglycemia and to remodel itself from an advanced pathogenic state. This was approached by treating adult transgenic mice with a pulse of anti-IFN-gamma antibody and determining the functional and morphological status of the pancreas. We demonstrated that anti-IFN-gamma antibody administration led to the reduction of hyperglycemic blood glucose levels in transgenic mice. We also observed that the pancreas returned from a profoundly perturbed state toward normality. Analysis of the mitotic index indicated that cell proliferation previously associated with islet cell regeneration was greatly reduced after anti-IFN-gamma administration. Our results highlight the ability of the adult pancreas to remodel itself and return from a complex pathological state to normalcy once the trophic signal inducing this pathology is removed. These data also suggest that anti-IFN-gamma administration may have important clinical implications for treatment of chronic pancreatitis in humans.

The role of infiltrating macrophages in islet destruction and regrowth in a transgenic model

The expression of interferon-gamma (IFN-gamma) in pancreatic beta cells leads to a complex pathology that represents the processes of both islet destruction and islet regeneration. Inflammatory cells and the factors elicited from them participate in the development of pathology in this transgenic model. To dissect the role of infiltrating macrophages in these events, the monoclonal directed against the type 3 complement receptor (5C6) was utilized to inhibit the extravasation of macrophages. This was approached by treating transgenic mice with 5C6 for 3 or 4 months, starting from 5-7 days of age. The data presented in this report demonstrate that infiltrating macrophages are important in the observed induction of diabetes in our transgenic model. We also found that infiltrating macrophages did not play a major role in the observed proliferation and islet regeneration, but some interesting subtleties regarding the regulation of this proliferative process emerged.

Accumulation of extracellular matrix and developmental dysregulation in the pancreas by transgenic production of transforming growth factor-beta 1

Transgenic mice expressing transforming growth factor-beta 1 (TGF-beta 1) in the pancreatic beta-islet cells directed by human insulin promoter were produced to study in vivo effects of TGF-beta 1. Fibroblast proliferation and abnormal deposition of extracellular matrix were observed from birth onward, finally replacing almost all the exocrine pancreas. Cellular infiltrates comprising macrophages and neutrophils were also observed. Plasminogen activator inhibitor was induced in the transgenic pancreas as well as fibronectin and laminin, partly explaining accumulation of extracellular matrix. TGF-beta 1 inhibited proliferation of acinar cells in vivo as evidenced by decreased bromodeoxyuridine incorporation. Development of pancreatic islets was dysregulated, resulting in small islet cell clusters without formation of normal adult islets; however, the overall islet cell mass was not significantly diminished. Additional transgenic lines with less pronounced phenotypes had less expression of TGF-beta 1 transgene. These findings suggest that TGF-beta 1 might be a mediator of diseases associated with extracellular matrix deposition such as chronic pancreatitis, and this mouse model will be useful for further analysis of the in vivo effects of TGF-beta 1, including its potential for immunosuppression.

Cellular and humoral immune responses to adenoviral vectors containing factor IX gene: tolerization of factor IX and vector antigens allows for long-term expression

Recombinant adenoviruses containing the canine factor IX (FIX) cDNA were directly introduced in the hind leg muscle of mice. We show that (i) in nude mice, high expression (1-5 micrograms/ml in plasma) of FIX protein can be detected for > 300 days; (ii) in contrast, expression of FIX protein was transient (7-10 days) in normal mice; (iii) CD8+ lymphocytes could be detected within 3 days in the infected muscle tissue; (iv) use of beta 2-microglobulin and immunoglobulin M heavy chain "knockout" mice showed that lack of sustained expression of FIX protein is due to cell-mediated and humoral immune responses; (v) normal mice, once infected with recombinant adenovirus, could not be reinfected efficiently for at least 30 days due to neutralizing viral antibodies; and, finally, (vi) using immunosuppressive drugs, some normal mice can be tolerized to produce and secrete FIX protein for > 5 months. We conclude that currently available adenoviral vectors have serious limitations for use for long-term gene therapy.

Myasthenia gravis-like syndrome induced by expression of interferon gamma in the neuromuscular junction

Abnormal humoral responses toward motor end plate constituents in muscle induce myasthenia gravis (MG). To study the etiology of this disease, and whether it could be induced by host defense molecules, we examined the consequences of interferon (IFN) gamma production within the neuromuscular junction of transgenic mice. The transgenic mice exhibited gradually increasing muscular weakness, flaccid paralysis, and functional disruption of the neuromuscular junction that was reversed after administration of an inhibitor of acetylcholinesterase, features which are strikingly similar to human MG. Furthermore, histological examination revealed infiltration of mononuclear cells and autoantibody deposition at motor end plates. Immunoprecipitation analysis indicated that a previously unidentified 87-kD target antigen was recognized by sera from transgenic mice and also by sera from the majority of human MG patients studied. These results suggest that expression of IFN-gamma at motor end plates provokes an autoimmune humoral response, similar to human MG, thus linking the expression of this factor with development of this disease.

Transitional cells in the regenerating pancreas

We examined the spectrum of intermediate cell types in the regenerating pancreas as duct epithelial cells progressed through their differentiation pathway to become mature endocrine cells. The model used was transgenic mice in which the pancreatic islets continue to grow during adulthood, unlike normal mice whose islet cell formation ceases early in life. Because the intermediate cells migrated into islet-like clusters at specific locations, we propose a specific pathway for islet development. Endocrine cells are derived from duct cells co-expressing a duct cell antigen, carbonic anhydrase II (CA II) and an exocrine enzyme, amylase. The CA II/amylase cells become amylase/endocrine intermediate cells as they exited from their lumenal location. The abluminal amylase/endocrine cells continue to differentiate to multihormone-bearing young endocrine cells, which migrated to form clusters with other differentiating endocrine cells.

Postnatal anti-interferon-gamma treatment prevents pancreatic inflammation in transgenic mice with beta-cell expression of interferon-gamma

beta-Cell-targeted expression of interferon-gamma (IFN-gamma) leads to pancreatitis and immune sensitization to beta-cells. This transgenic model is used to explore the possible role of locally produced IFN-gamma in loss of tolerance to beta-cell-specific antigens in insulin-dependent diabetes mellitus (IDDM). The aim of the present study was to test if postnatal treatment with antibodies against IFN-gamma could inhibit morphological changes in the IFN-gamma transgenic pancreas, even though the transgene is expressed during embryogenesis. Treatment with a monoclonal rat anti-mouse IFN-gamma antibody for 6 weeks, starting from 5 to 7 days of age, completely inhibited IFN-gamma-induced morphological changes in the pancreas, and only a modest inflammatory reaction emerged after prolonged treatment for 12 weeks. The lack of morphological changes may reflect the ability of nonterminally differentiated neonatal pancreatic cells to compensate for transgene-induced pathological alterations occurring in utero prior to the antibody treatment. We conclude that inflammation and altered pancreas morphology in the transgenic mice is the result of the biological actions of IFN-gamma and not by disrupted islet development due to transgene overexpression in the pancreatic beta-cells. Furthermore, our treatment schedule can serve as a model for future intervention studies in the transgenic mice, elaborating the role of IFN-gamma in localized inflammatory reactions, IDDM in particular.

A transgenic model for studying islet development

The regeneration of islet cells in a transgenic mouse strain harboring the interferon-gamma gene (IFN-gamma) linked to the insulin promoter DNA fragment (ins-IFN-gamma) is described. The regeneration follows the loss of islets by an immune response provoked by IFN-gamma and manifests in the proliferation of duct cells, the presence of progenitor cells, and the formation of buds and isletlike structure. All three types (A, B, and D) of four endocrine cells identified by immunolabeling are present. The progenitor cells express neuronal enzymes, tyrosine hydroxylase (TH) and glutamic acid decarboxylase (GAD), as revealed by specific antibodies. The results indicate that the islet regeneration closely resembles the embryonic islet differentiation and serves as a model for studying islet development. The expression of neuronal enzymes by islet progenitor cells signifies yet unknown relationships to the nervous tissue. GAD, recognized as an autoantigen in insulin-dependent diabetes mellitus (IDDM) and stiff-man syndrome, may provide a clue to the mechanism of autoimmune disease.

[Research on anti-idiotypic antibodies to bovine abortus]

Based on the establishment of McAbs to a local Brucella strain S85A, the McAb A7 was selected and tested as a protective one. Using A7 to immunize rabbits, we got high titer anti-idiotypic antibodies which were then proved to possess internal image by competitive inhibiting ELISA and catch blocking ELISA. The anti-idiotypic antibodies were then purified and mixed with glycerin to immunize guinea pigs and mice. The results showed that: immunized guinea pigs and mice had produced certain titer antibodies to Brucella. 79.2% of immunized guinea pigs had been protected from the challenge of 544A 4 months later from primary immunization. The number of T ANAE+ in peripheral blood of immunized mice had increased significantly compared to controls. These results suggest that the anti-idiotypic antibodies not only possess the antigen internal image but have the available immunogenicity stimulate animals producing Ab3 and make them get free from the infection.

Dependence of viscoelastic properties on spacer length and molecular weight for a side-chain liquid crystal polymer in a nematic solvent

The light scattering technique was used to investigate the viscoelastic parapeters characterizing director distortions in miscible mixtures of pentacyanobiphenyl (5CB) with a side-chain liquid crystal polymer (LCP) having different spacer lengths (n=2, 3, 5, 7, 11). To separate the elastic constants from the corresponding viscosities, two approaches were attempted: (a) an AC electric field was applied to homeotropically-aligned nematic monodomains of the mixtures, and the field-dependent scattering intensities and director distortion relaxation rates were measured to obtain the twist viscosity γ1 and elastic constant K22; (b) an electric field was applied to a homogeneously aligned monodomain and the votage-dependent capacitance and the threshold voltage were measured to obtain the dielectric constants and the splay elastic constant. The remaining splay viscosity, bend viscosity and bend elastic constant were subsequently determined by fitting the angular-dependent relaxation rates in three scattering geometries which correspond principally to splay, twist, and bend modes of the director distortions ofr nematic miwtures. The additin of liquid crystal polymers cause significant decreases of the relaxation rates for all three distortion modes of 5CB which are due to small decreases in the elastic constants and large increases in the viscosity coefficients. The molecular weight dependence of the viscosities for n=3 is weak. The largest increase in viscosities is found for the LCP with shortest spacer length n=2. The dependence of viscosity on spacer length disappears when n≥5. The anisotropy in the three viscosity incrementsof the nematic mixtures also becomes smaller when n≥5. Our results indicate that, for side-chain LCPs in a nematic solvent, the backbone configurational anisotropy is enhanced by a strong coupling between the mesogenic group in the side-chain and the chain backbone.

Epithelial cell proliferation and islet neogenesis in IFN-g transgenic mice

We have identified a model system for the study of pancreatic islet development and regeneration in transgenic mice bearing the interferon-gamma (IFN-g) gene expressed in the pancreatic islets. Previous studies showed that the locally produced IFN-g causes lymphocyte infiltration and islet cell destruction. Here we demonstrate that new islet cells are formed continuously from duct cells as evidenced by (1) the dramatic proliferation of duct cells, (2) the appearance of primitive cells and (3) their subsequent differentiation to endocrine cells. The IFN-g induced islet neogenesis is similar to embryonic islet morphogenesis and offers a model system for studying factors modulating islet development. Additionally, the duct cells occasionally transdifferentiate to gastrointestinal-like cell types and hepatocytes. These results underscore the lymphokine's ability to initiate a complex ‘transdifferentiation’ pathway, providing a window for understanding lineage interrelationships within a terminally differentiated structure.

Diagnostic exploration of enlarged peripheral nerves in suspected cases of leprosy. An analysis of 55 cases

In 55 cases presenting with enlarged peripheral nerves without any skin lesions, a rice grain-sized biopsy of the nerve lesion was taken for histopathological examination. As a result definitive diagnoses could be established: leprosy was diagnosed in 32 cases. In 23 cases the cause of nerve enlargement was not leprosy: post-traumatic neuritis 9, cysts 5, hypertrophic neuritis 3, nonspecific 4, neurofibroma 1, and amyloidosis 1. In all of these cases there was a deficit of the nerve function and postoperatively there were no complications. The authors, as a result of this experience, believe that surgical exploration and biopsy is a harmless diagnostic tool for establishing a definitive diagnosis of leprosy in cases presenting with enlarged peripheral nerves without any skin lesions. In 23 out of 55 such cases the nerve enlargement was proved to be other causes than leprosy.

Regeneration of pancreatic endocrine cells in interferon-gamma transgenic mice

We have shown that the pancreatic duct cells of IFN-gamma mouse are actively multiplying and that many duct cells differentiate to become endocrine cells. This islet regenerating process closely parallels the islet development during normal organogenesis in the fetus and offers a model for studying the cell lineage relationships of islet cells. The subject has received wide interest and intensive research in recent years. One of the noteworthy results of this study is the finding that duct cells retain the ability to proliferate and to differentiate into islet cells. Under normal conditions, duct cells do not continue to multiply or to differentiate. The results suggest that in the transgenic mice, the progenitor cells of embryonic multipotential duct cells transform into adult cells, but in the presence of appropriate signals or stimuli can resume their multipotential property. The appearance of hepatocytes indicates that while the cell proliferation observed largely results in endocrine cells, other differentiation pathways are occasionally possible. We also detect a few large cells containing albumin and alpha-fetoprotein in the periductal area. Pancreatic hepatocytes have also been observed in the rat after recovery from copper deficiency diet. Thus, the regeneration of islet cells in transgenic mice provides a model system for the study of factors modulating the growth pattern as well as the differentiation pathway.