Primary demyelination in transgenic mice expressing interferon-gamma

Ever since the use of interferon-gamma to treat patients with multiple sclerosis resulted in enhanced disease, the role of IFN-gamma in demyelination has been under question. To address this issue directly, transgenic mice were generated that expressed the cDNA of murine IFN-gamma in the central nervous system by using an oligodendrocyte-specific promoter. Expression of the transgene occurred after 8 weeks of age, at which time the murine immune and central nervous systems are both fully developed. Directly associated with transgene expression, primary demyelination occurred and was accompanied by clinical abnormalities consistent with CNS disorders. Additionally, multiple hallmarks of immune-mediated CNS disease were observed including upregulation of MHC molecules, gliosis and lymphocytic infiltration. These results demonstrate a direct role for IFN-gamma as an inducer of CNS demyelination leading to disease and provide new opportunities for dissecting the mechanism of demyelination.     

Strategies for expressing human antibody repertoires in transgenic mice

Repertoires of human antibodies can be created in transgenic mice carrying human immunoglobulin-gene loci in germline configuration. These 'transloci', introduced either as miniloci or as almost locus-sized regions, undergo rearrangement and hypermutation in mouse lymphoid tissue. Here, Marianne Brüggemann and Michael Neuberger review the use of such mice for raising antigen-specific human monoclonal antibodies, as well as their exploitation for studying regulatory aspects of antibody repertoire formation.     

Human apolipoprotein E allele-specific brain expressing transgenic mice

OBJECTIVES: Several reports indicate a secular decline of human sperm counts. It is still not known if these findings are artifacts related to shortcomings in the data and applied methodologies. Even less is known about possible mechanisms, but it has been proposed that potential changes may be related to disruption of the hormonal regulation of testicular development in prenatal life. The objective of this study was to examine whether sperm count was related to year of birth. METHODS: An analysis was made of the sperm count of 1196 men participating in 10 cross-sectional occupational sperm studies in 3 regions of Denmark from 1986 through 1995. RESULTS: The median sperm concentration was 63 million per milliliter for men born in 1937-1949 and 52 million per milliliter for men born in 1970 or later, and the median total sperm was 206 million and 117 million, respectively. The inverse relationship between sperm concentration and year of birth was statistically significant even after adjustment for duration of sexual abstinence, season of the year, and study population. However, bias because of differential participation related to age and fertility or lack of comparability across the populations cannot be ruled out. CONCLUSIONS: The apparent decline of sperm count with increasing year of birth is compatible with the hypothesis of a common risk factor for male reproductive health operating in prenatal life or early childhood, but the evidence is circumstantial. Age-related selection bias is an alternative and perhaps not a less likely explanation.     

Protection from lethal malaria in transgenic mice expressing sickle hemoglobin

Previous studies from our laboratories have shown that transgenic mice expressing high levels of beta S globin are well-protected from Plasmodium chabaudi adami and partially protected against P berghei (Shear et al, Blood 81:222, 1993). We have now infected transgenic mice expressing low (39%), intermediate (57%), and high (75%) levels of beta S with the virulent strain of P yoelii (17XL) that appears to cause cerebral malaria. We find that the level of protection in these three groups of mice correlates positively with the level of beta S chain expression in the mice. Seven of nine mice expressing the high level of beta S recovered from infection, as did 7 of 9 mice expressing the intermediate level of beta S. Control mice and mice expressing the lower level of beta S all succumbed to infection. In mice expressing high and intermediate levels of beta S, parasites were found almost exclusively in reticulocytes during recovery, suggesting that mature red blood cells expressing beta S are more resistant than reticulocytes. These studies confirm epidemiologic data and offer insight into the mechanism of protection of sickle trait individuals against falciparum malaria.     

Aggressive behaviour in transgenic mice expressing APP is alleviated by serotonergic drugs

Transgenic mouse strains were generated that overexpress human APP or clinical mutants of APP. All transgenic mouse strains that over-express APP displayed essentially the same phenotype of disturbed behaviour, differential glutamatergic responses, deficits in maintenance of long-term potentiation and premature death, but formation of amyloid plaques was seen in the highest expressing APP/London transgenic mice only. Apart from cognitive deficits, the APP transgenic mice were characterized by aggressive behaviour, which was pharmacologically alleviated with 8-OH-DPAT and buspirone, two serotonergic agonists. The atypical neuroleptic drug risperidone was equally active in this regard. The data establish an important aspect of the transgenic mice as experimental models for behavioural aspects of Alzheimer's disease, in addition to other early and late symptoms.     

Development of thymic carcinoma in transgenic mice expressing SV40 T antigen

The strongest fibrinolytic protease (F-III-2) in the six enzyme proteins purified from earthworm, Lumbricus rubellus [N. Nakajima et al., Biosci. Biotech. Biochem., 57, 1726-1730 (1993)] has been modified chemically with fragmented human serum albumin (mol. wt., 10,000-30,000). The modified enzyme lost the antigenicity of the native enzyme and reacted with the antisera against human serum albumin, the human serum albumin fragments, and the conjugate with the native enzyme to form precipitation lines, which fused with each other. The conjugate was significantly more resistant to inactivation by protease inhibitors in rat plasma. The enzyme was a non-hemorrhagic protein and did not induce platelet aggregation. The enzyme kept potent proteolytic activity for fibrin and fibrinogen than that of human plasmin. The enzyme easily solubilized actual fibrin clots (thrombi) of whole blood induced by thrombin in a rat's vena cava. The continuous fibrinolysis for fibrin suspension in an enzyme reactor system using the modified enzyme immobilized to oxirane-activated acrylic beads has been achieved without any inactivation of the activity at least for more than 1 month. The N-terminal amino acid sequence of the protein was also investigated and the sequence showed local similarity to those of the serine proteases such as plasmin and chymotrypsin.     

Neurological illness in transgenic mice expressing a prion protein with an insertional mutation

Familial prion diseases are caused by mutations in the gene encoding the prion protein (PrP). We have produced transgenic mice that express the mouse homolog of a mutant human PrP containing a nine octapeptide insertion associated with prion dementia. These mice exhibit a slowly progressive neurological disorder characterized clinically by ataxia and neuropathologically by cerebellar atrophy and granule cell loss, gliosis, and PrP deposition that is most prominent in the cerebellum and hippocampus. Mutant PrP molecules expressed in the brains of these mice are resistant to digestion by low concentrations of proteinase K and display several other biochemical properties reminiscent of PrP(Sc), the pathogenic isoform of PrP. These results establish a new transgenic animal model of an inherited human prion disorder.     

Impaired insulin signaling in skeletal muscles from transgenic mice expressing kinase-deficient insulin receptors

Transgenic mice which overexpress kinase-deficient human insulin receptors in muscle were used to study the relationship between insulin receptor tyrosine kinase and the in vivo activation of several downstream signaling pathways. Intravenous insulin stimulated insulin receptor tyrosine kinase activity by 7-fold in control muscle versus < or = 1.5-fold in muscle from transgenic mice. Similarly, insulin failed to stimulate tyrosyl phosphorylation of receptor beta-subunits or insulin receptor substrate 1 (IRS-1) in transgenic muscle. Insulin substantially stimulated IRS-1-associated phosphatidylinositol (PI) 3-kinase in control versus absent stimulation in transgenic muscles. In contrast, insulin-like growth factor 1 modestly stimulated PI 3-kinase in both control and transgenic muscle. The effects of insulin to stimulate p42 mitogen-activated protein kinase and c-fos mRNA expression were also markedly impaired in transgenic muscle. Specific immunoprecipitation of human receptors followed by measurement of residual insulin receptors suggested the presence of hybrid mouse-human heterodimers. In contrast, negligible hybrid formation involving insulin-like growth factor 1 receptors was evident. We conclude that (i) transgenic expression of kinase-defective insulin receptors exerts dominant-negative effects at the level of receptor auto-phosphorylation and kinase activation; (ii) insulin receptor tyrosine kinase activity is required for in vivo insulin-stimulated IRS-1 phosphorylation, IRS-1-associated PI 3-kinase activation, phosphorylation of mitogen-activated protein kinase, and c-fos gene induction in skeletal muscle; (iii) hybrid receptor formation is likely to contribute to the in vivo dominant-negative effects of kinase-defective receptor expression.     

Reduced beta 2-microglobulin mRNA levels in transgenic mice expressing a designed hammerhead ribozyme

We have generated three artificial hammerhead ribozymes, denoted 'Rz-b', 'Rz-c' and 'Rz-d', with different specificities for exon II of the mouse beta-2-microglobulin (beta 2M) mRNA. In this study we tested for ribozyme mediated reduction of beta 2M mRNA in a cell line and in transgenic mice. Transfections of either of the Rz-b, Rz-c or Rz-d plasmids into a mouse cell-line (NIH/3T3) revealed reductions of beta 2M mRNA substrate in each case. Ribozyme expression in individual transfected clones was accompanied with an up to 80% reduction of beta 2M mRNA levels. Rz-c was selected for a transgenic study. Seven Rz-c transgenic founder animals were identified from which three ribozyme expressing families were established and analysed. Expression of the ribozyme transgene was tested for and detected in lung, kidney and spleen. Expression was accompanied with reduction of the beta 2M mRNA levels of heterozygous (Rz+/-) animals compared to non-transgenic litter mates. The effect was most pronounced in lung with more than 90% beta 2M mRNA reduction in individual mice. In summary, expression of our ribozymes in a cell free system, in a cell-line and in transgenic mice were all accompanied with reductions of beta 2M mRNA levels.     

Hyperinsulinemia but no diabetes in transgenic mice homozygously expressing the tyrosine kinase-deficient human insulin receptor

We generated transgenic mice homozygous for the tyrosine kinase-deficient human insulin receptor (hIRK1030M(+/+)) under control of the insulin receptor promoter. Similar growth patterns and results of glucose tolerance tests were observed among normal, heterozygous, and homozygous mice. Insulin tolerance test indicated no significant difference in the hypoglycemic response to insulin among the three genotypes. However, the serum insulin levels of the homozygous mice before and after glucose loading (201.42 +/- 58.15 pg/ml to 578.57 +/- 49.03 pg/ml) were significantly higher than in the control mice (100.92 +/- 19.55 pg/ml to 356.36 +/- 55.08 pg/ml; p < 0.01 and p < 0.01, respectively) and heterozygous mice (74.46 +/- 18.55 pg/ml to 352.33 +/- 52.43 pg/ml; p < 0.005 and p < 0.01, respectively). Immunohistological evidence of pancreatic islets showed no significant difference among the three genotypes. Taken together, these results suggest that the tyrosine kinase-deficient insulin receptor causes hyperinsulinemia but not diabetes in these homozygous transgenic mice.     

Lack of beta-amyloidosis in transgenic mice expressing low levels of familial Alzheimer''s disease missense mutations

Point mutations within the beta-amyloid precusor protein (beta-APP) gene known to segregate with Alzheimer's disease in certain families were introduced into human beta-APP cDNAs and expressed under the control of a neuron-specific enolase (NSE) promoter in mice. The transgenic animals exhibited transgene expression predominantly in neocortex and hippocampus where the levels were maximally 1.3-fold of those of wild-type mouse beta-APP. Quantitative immunoblot analysis in homozygous mice carrying different missense mutations showed slightly increased alpha-secretory processing. In V7171 mice compared to nontransgenic mice there was more alpha-secretory beta-APP (beta-APPsec) in cortex/hippocampus, less in cerebellum, and no difference in midbrain/brain stem. In none of the transgenic animals tested was a 4 kDa amyloid fragment detected by Western blotting of brain extracts, immunohistochemistry, or by 125I-A beta-binding onto brain sections. No glial reaction was observed. Behavioral analysis of mice carrying the V7171 mutation showed no appreciable deficit in comparison to wild-type mice. Together, these data suggest that low levels of expression of mutated beta-APP in 10-12-month-old transgenic mouse brains result in slightly more beta-APPsec, and are insufficient to induce amyloidogenic processing and AD-like pathology.     

Genetic factors precipitating type III hyperlipoproteinemia in hypolipidemic transgenic mice expressing human apolipoprotein E2

Several factors are hypothesized to precipitate or exacerbate type III hyperlipoproteinemia (HLP) in humans. Among such factors are those that directly overload remnant lipoprotein production or disrupt removal pathways, including an increased ratio of apolipoprotein (apo) E2 to normal apoE, overproduction of apoB-containing lipoproteins, and decreased LDL receptor activity. Hypolipidemic apoE2-transgenic mice bred onto an apoE-null background had dramatically higher plasma total cholesterol (192 +/- 26 mg/dL for males, 203 +/- 40 mg/dL for females) and triglyceride (295 +/- 51 mg/dL for males, 277 +/- 58 mg/dL for females) levels than apoE2 mice with endogenous mouse apoE. Thus, eliminating normal apoE in the presence of apoE2 (thereby increasing the relative abundance of the defective ligand) can convert a hypolipidemic to a hyperlipidemic phenotype. Hypolipidemic apoE2 transgenic mice overexpressing human apoB had moderate remnant accumulation compared with apoE2-only or apoB-only transgenic mice, indicating that overproduction of apoB-containing lipoproteins in the presence of apoE2 can augment remnant production. Hypolipidemic apoE2 transgenic mice bred-onto an LDL receptor-null background had markedly higher plasma total cholesterol (288 +/- 51 mg/dL for males, 298 +/- 73 mg/dL for females) and triglyceride (356 +/- 72 mg/dL for males, 317 +/- 88 mg/dL for females) levels than apoE2-only mice, and remnant accumulation increased even in apoE2 mice with a heterozygous LDL receptor-knockout background (compared with apoE2-only mice), suggesting that reducing or eliminating a major receptor-mediated remnant-removal pathway in the presence of apoE2 can also precipitate a hyperlipidemic phenotype. In all cases where either lipoprotein remnant production or removal pathways were severely stressed, increased remnant accumulation was apparent. As judged by the chemical characteristics of the remnant lipoproteins, the lipoprotein phenotype was quite similar to that of human type III HLP, especially in the apoE2-expressing mice with no endogenous apoE or LDL receptors, and thus these mice represent improved models of the disorder.     

Intranuclear inclusions and neuritic aggregates in transgenic mice expressing a mutant N-terminal fragment of huntingtin

Huntington's disease (HD) is an inherited, neurodegenerative disorder caused by the expansion of a glutamine repeat in the N-terminus of the huntingtin protein. To gain insight into the pathogenesis of HD, we generated transgenic mice that express a cDNA encoding an N-terminal fragment (171 amino acids) of huntingtin with 82, 44 or 18 glutamines. Mice expressing relatively low steady-state levels of N171 huntingtin with 82 glutamine repeats (N171-82Q) develop behavioral abnormalities, including loss of coordination, tremors, hypokinesis and abnormal gait, before dying prematurely. In mice exhibiting these abnormalities, diffuse nuclear labeling, intranuclear inclusions and neuritic aggregates, all immunoreactive with an antibody to the N-terminus (amino acids 1-17) of huntingtin (AP194), were found in multiple populations of neurons. None of these behavioral or pathological phenotypes were seen in mice expressing N171-18Q. These findings are consistent with the idea that N-terminal fragments of huntingtin with a repeat expansion are toxic to neurons, and that N-terminal fragments are prone to form both intranuclear inclusions and neuritic aggregates.     

Extracellular proteolysis alters tooth development in transgenic mice expressing urokinase-type plasminogen activator in the enamel organ

By catalyzing plasmin formation, the urokinase-type plasminogen activator (uPA) can generate widespread extracellular proteolysis and thereby play an important role in physiological and pathological processes. Dysregulated expression of uPA during organogenesis may be a cause of developmental defects. Targeted epithelial expression of a uPA-encoding transgene under the control of the keratin type-5 promoter resulted in enzyme production by the enamel epithelium, which does not normally express uPA, and altered tooth development. The incisors of transgenic mice were fragile, chalky-white and, by scanning electron microscopy, their labial surface appeared granular. This phenotype was attributed to a defect in enamel formation during incisor development, resulting from structural and functional alterations of the ameloblasts that differentiate from the labial enamel epithelium. Immunofluorescence revealed that disorganization of the ameloblast layer was associated with a loss of laminin-5, an extracellular matrix molecule mediating epithelial anchorage. Amelogenin, a key protein in enamel formation, was markedly decreased at the enamel-dentin junction in transgenics, presumably because of an apparent alteration in the polarity of its secretion. In addition, increased levels of active transforming growth factor-beta could be demonstrated in mandibles of transgenic mice. Since the alterations detected could be attributed to uPA catalytic activity, this model provides evidence as to how dysregulated proteolysis, involving uPA or other extracellular proteases, may have developmental consequences such as those leading to enamel defects.     

Compromised allograft rejection response in transgenic mice expressing antisense sequences to retinoic acid receptor beta2

Our aim was to identify new genes involved in the cellular aspects of defense mechanism of Drosophila, as well as in melanotic tumor formation processes that are linked to blood cell disregulation. We have screened 1341 enhancer detector fly lines for expression of the lacZ reporter gene in larval hemocytes at the end of the third instar. We have selected 21 lines in which we observed a reproducible lacZ expression in blood cells. These lines were classified according to the subsets of hemocytes in which lacZ was expressed, and we identified five lines that can be used as lamellocyte markers. Three lines were selected for further analysis. The first exhibited strong lacZ expression in all lamellocytes. The second expressed lacZ in plasmatocytes and lamellocytes, and exhibited a melanotic tumor phenotype in larvae homozygous for the insertion. A third line showed a striking insertion-linked phenotype of melanized lymph glands (the hematopoietic organ), which resulted in the total absence of circulating hemocytes in the mutant larvae. We anticipate that this mutation, which we named domino, will prove a useful tool in the analysis of the role of hemocytes during the various aspects of immune response and melanotic tumor formation.     

Conditioned activity to amphetamine in transgenic mice expressing and antisense RNA against the glucocorticoid receptor.

Glucocorticoids enhance the locomotion-stimulating and the rewarding properties of stimulant drugs. Amphetamine-induced conditioned activity was investigated in B6C3FI (controls) and antisense transgenic mice. The latter expresses a neurofilament-promotor-driven antisense RNA complementary to a fragment of cDNA that codes for the mouse glucocorticoid receptor. This gene expression leads to approximately a 50% reduction in glucocorticoid receptor mRNA in the brain. Transgenic mice showed an increased novelty response when tested in an open field, in terms of both distance traveled and number of rearings. Moreover, they displayed enhanced amphetamine-induced conditioned activity. Behavioral sensitization was observed in controls, whereas behavioral tolerance developed in transgenic mice. These data support the concept of an enhanced stress response in these transgenic mice, rather than a general downregulation of the stress response because of impaired glucocorticoid receptor function. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Viability of transgenic mice expressing a platelet derived growth factor (PDGF) antagonist in plasma

BACKGROUND: Many studies have implicated PDGF in the development of diseases such as atherosclerosis. Previously, we showed in tissue culture that the soluble extracellular domain of the PDGF beta-receptor is capable of binding BB-PDGF with high affinity; therefore antagonizing the ability of BB-PDGF to stimulate cell growth. METHODS: This work describes the efforts of expressing the soluble extracellular domain of the PDGF beta-receptor in transgenic mice. Driven by the albumin promoter, which is activated relatively late during embryonic development, the secreted form of the PDGF receptor protein was detected in plasma of the homozygous mice at a high concentration (approximately 60 micrograms/microL or approximately 545 nm). RESULTS: Plasma from these transgenic mice was capable of blocking PDGF-induced receptor autophosphorylation in tissue culture. The mice appeared to be healthy, demonstrating that full PDGF beta-receptor function is not required for viability. CONCLUSION: By expressing a high level of a soluble form of the extracellular domain of the PDGF receptor in transgenic mice, we have established a novel animal model that will allow us to gain insight into the role of the PDGF receptor in vascular diseases and other diseases involving PDGF stimulated cell proliferation.     

Endocrine profile and neuroendocrine challenge tests in transgenic mice expressing antisense RNA against the glucocorticoid receptor

A transgene expressing antisense RNA complementary to a fragment of the glucocorticoid receptor cDNA was incorporated into the mouse genome and resulted in a transgenic animal that has decreased glucocorticoid receptor function. The transgenic mice showed basal plasma ACTH and corticosterone levels similar to those of the normal control animals. We have further investigated changes in HPA axis regulation by use of different neuroendocrine challenge tests including a dexamethasone suppression test (DST). In comparison to normal mice, a tenfold higher dose of dexamethasone (i.e. 20 micrograms/100 g body weight) was required to suppress the basal corticosterone levels of transgenic mice. Dexamethasone (2 micrograms/100 g body weight) produced a long-lasting suppression of plasma ACTH and corticosterone levels in control mice, whereas in transgenic animals only a short-lasting decrease in ACTH levels was apparent. Corticotropin-releasing hormone (CRH) administration resulted in an enhanced response in plasma ACTH levels in transgenic mice, whereas the corticosterone response was markedly reduced. The discrepancy between ACTH and corresponding corticosterone secretions in transgenic mice could be attributed, in part, to a reduced sensitivity of the adrenal gland to stimulation by ACTH. Pituitaries of transgenic mice contained about 50% less proopiomelanocortin (POMC) mRNA than those of control animals. No significant differences were noted in the ACTH or protein contents of normal and transgenic mice pituitary glands although a slight increase in protein content of the transgenic mouse adrenal gland was apparent. In conclusion, transgenic mice with impaired GR function show major disturbances in HPA axis regulation which seem to be caused by the primary defect in conjunction with secondary modifications in, amongst others, pituitary CRH receptor system(s), sympathetic output and adrenal development. This mouse is therefore a useful model to study the consequences of life-long defective GR function and HPA axis regulation in general.     

Generation and analysis of transgenic mice expressing P216L-substituted rds/peripherin in rod photoreceptors

PURPOSE: In this study, the authors present the biochemical, morphologic, and physiological analyses of a transgenic mouse model for retinal degeneration slow (RDS)-mediated retinitis pigmentosa caused by a proline 216 to leucine (P216L) amino acid substitution in rds/peripherin. METHODS: The authors assembled a mutant rds transgene that encodes rds/peripherin with a P216L substitution. Transgenic mice were generated on wild-type (+/+), heterozygous (rds-/+), and homozygous (rds-/rds-) null genetic backgrounds. These mice were analyzed biochemically, by light and electron microscopy, and by electroretinography. RESULTS: In P216L-transgenic mice on a +/- background, the authors observed expression-level-dependent photoreceptor degeneration and outer-segment shortening. Expression of the P216L transgene on an rds-/+ background resulted in more severe photoreceptor degeneration and outer-segment dysplasia than seen in nontransgenic rds-/+ mutants. Severely dysplastic outer segments were detectable in P216L transgenics on an rds-/rds-null background. The reduction in b-wave amplitudes by electroretinography were well correlated with the degree of photoreceptor degeneration, but not outer-segment dysplasia in these different rds mutants. CONCLUSIONS: The phenotype in P216L-transgenic mice on an rds-/+ genetic background probably is caused by a combination of two genetic mechanisms: a direct dominant effect of the P216L substituted protein, and a reduction in the level of normal rds/peripherin. The expression pattern of the normal and mutant genes in these animals is similar to that predicted for humans with RDS-mediated autosomal-dominant retinitis pigmentosa. These mice may thus be considered an animal model for this disease.