Comparison of: (2S,4R)-4-[18F]Fluoroglutamine, [11C]Methionine, and 2-Deoxy-2-[18F]Fluoro-D-Glucose and Two Small-Animal PET/CT Systems Imaging Rat Gliomas.

PURPOSE: The three positron emission tomography (PET) imaging compounds: (2S,4R)-4-[18F]Fluoroglutamine ([18F]FGln), L-[methyl-11C]Methionine ([11C]Met), and 2-deoxy-2-[18F]fluoro-D-glucose ([18F]FDG) were investigated to contrast their ability to image orthotopic BT4C gliomas in BDIX rats. Two separate small animal imaging systems were compared for their tumor detection potential. Dynamic acquisition of [18F]FGln was evaluated with multiple pharmacokinetic models for future quantitative comparison. PROCEDURES: Up to four imaging studies were performed on each orthotopically grafted BT4C glioma-bearing BDIX rat subject (n = 16) on four consecutive days. First, a DOTAREM® contrast enhanced MRI followed by attenuation correction CT and dynamic PET imaging with each radiopharmaceutical (20 min [11C]Met, 60 min [18F]FDG, and 60 min [18F]FGln with either the Molecubes PET/CT (n = 5) or Inveon PET/CT cameras (n = 11). Ex vivo brain autoradiography was completed for each radiopharmaceutical and [18F]FGln pharmacokinetics were studied by injecting 40 MBq into healthy BDIX rats (n = 10) and collecting blood samples between 5 and 60 min. Erythrocyte uptake, plasma protein binding and plasma parent-fraction were combined to estimate the total blood bioavailability of [18F]FGln over time. The corrected PET-image blood data was then applied to multiple pharmacokinetic models. RESULTS: Average BT4C tumor-to-healthy brain tissue uptake ratios (TBR) for PET images reached maxima of: [18F]FGln TBR: 1.99 ± 0.19 (n = 13), [18F]FDG TBR: 1.41 ± 0.11 (n = 6), and [11C]Met TBR: 1.08 ± 0.08, (n = 12) for the dynamic PET images. Pharmacokinetic modeling in dynamic [18F]FGln studies suggested both reversible and irreversible uptake play a similar role. Imaging with Inveon and Molecubes yielded similar end-result ratios with insignificant differences (p > 0.25). CONCLUSIONS: In orthotopic BT4C gliomas, [18F]FGln may offer improved imaging versus [11C]Met and [18F]FDG. No significant difference in normalized end-result data was found between the Inveon and Molecubes camera systems. Kinetic modelling of [18F]FGln uptake suggests that both reversible and irreversible uptake play an important role in BDIX rat pharmacokinetics.

An Animal Model Further Uncovers the Role of Mutant BrafV600E during Papillary Thyroid Cancer Development.

Papillary thyroid carcinomas (PTCs) account for 90% of human thyroid cancer cases, which represent 1% of all cancer cases. They are likely to develop from papillary thyroid microcarcinomas (PTMCs), found in up to 36% of healthy individuals, due to rare progression events (0.01%). Although the prognosis of PTCs is excellent, 5% to 10% of tumors display an unfavorable outcome. About 45% of PTCs exhibit activating BRAFV600E mutations. Rats of the inbred BD strains postnatally exposed to the carcinogen N-ethyl-N-nitrosourea developed PTMCs, which closely resembled their human counterparts judging from their histology, size, and marginal tendency to progress. DNA sequencing revealed mutations in exon 15 of the Braf gene identical to the human BRAFV600E mutation in 82% of the cases. Predominantly a 50:50 ratio of wild-type to mutant Braf alleles was seen regardless of tumor size or animal age, indicating that the Braf mutation is an early, if not the initial, event in rat PTMC development. Surprisingly, most PTMCs carrying a confirmed BrafV600E mutation did not display BrafV600E protein expression. As the BrafV600Egene is supposed to be the driver in PTC development, down-regulation of expression should contribute to the low risk for progression of PTMC. This model system will enable further insights into the molecular mechanisms of PTMC initiation and progression to PTC, further translating into targeted tumor prevention strategies/therapies.

Development and initial Experience of an online Exchange Platform on Sex and Gender Aspects in Medicine: "GenderMed-Wiki".

Goal: Knowledge about sex/gender aspects in medicine is often lacking, even though this serves as base for individualized patient-centered care. Thus we developed an online exchange platform on sex and gender aspects in medicine: "GenderMed-Wiki" [www.gendermed-wiki.de]. This was funded by the German Federal Ministry of Education and Research (BMBF; FKZ: 01FP1506). Our goal is to facilitate the integration of sex and gender in all areas of medicine. Therefore we evaluated if "GenderMed-Wiki" is suitable to provide knowledge on sex and gender aspects in medicine adequately. Methods: Qualitative evaluation of "GenderMed-Wiki" was done 6 months after project start by 4 focus groups with a total of 30 participants (students, lecturers, physicians, and the public). The discussions in each focus group were minuted, requirements pooled and new categories derived inductively. After further optimization of the platform a quantitative survey was done by an online questionnaire (SoSci Survey). 149 students of the medical faculties of Muenster and Duisburg-Essen (as well as students of dentistry from the medical faculty of Muenster) participated (return rate of 3.3%). Evaluation of the content of the articles was done by assessing three professional articles: Sex/gender and medicine (both study courses medicine and dentistry), depression (medicine only) and periodontitis (dentistry only). The results were reported in relative and absolute frequencies and associations were assessed by Chi-Quadrat-tests. Results: Four categories which needed further optimization were deducted from the responses given by our focus groups prior to evaluation: aspects related to content, technical requirements, usability of the platform and legal challenges. Most of the students found "GenderMed-Wiki" to be informative, however they didn´t think it to be relevant for their current studies. In contrast, many thought that the platform may be useful when working as physicians. Students who reported that topics related to sex and gender were not of importance to them, evaluated the platform more neutrally and answered questions related to sex/gender in depression more often incorrectly. Conclusions: Focus groups are a useful approach to identify necessary changes in projects in a systematic way. After further optimizations, "GenderMed-Wiki" seems to be suitable to facilitate the integration of sex/gender into medical teachings. It is of importance, however, to change the attitude of students towards sex/gender sensitive medicine (e.g. by integration into the medical curriculum), since this influences strongly how this platform is perceived and how someone deals with its contents.

Braf Mutations Initiate the Development of Rat Gliomas Induced by Postnatal Exposure to N-Ethyl-N-Nitrosourea.

A single dose of N-ethyl-N-nitrosourea (ENU) during late prenatal or early postnatal development induces a high incidence of malignant schwannomas and gliomas in rats. Although T->A mutations in the transmembrane domain of the Neu (c-ErbB-2) gene are the driver mutations in ENU-induced malignant schwannomas, the molecular basis of ENU-induced gliomas remains enigmatic. We performed whole-genome sequencing of gliomas that developed in three BDIV and two BDIX rats exposed to a single dose of 80 mg ENU/kg body weight on postnatal day one. T:A->A:T and T:A->C:G mutations, which are typical for ENU-induced mutagenesis, were predominant (41% to 55% of all somatic single nucleotide mutations). T->A mutations were identified in all five rat gliomas at Braf codon 545 (V545E), which corresponds to the human BRAF V600E. Additional screening revealed that 33 gliomas in BDIV rats and 12 gliomas in BDIX rats all carried a Braf V545E mutation, whereas peritumoral brain tissue of either strain had the wild-type sequence. The gliomas were immunoreactive to BRAF V600E antibody. These results indicate that Braf mutation is a frequent early event in the development of rat gliomas caused by a single dose of ENU.

Chemically Induced Oncogenesis in the Peripheral Nervous System Is Suppressed in Congenic BDIX.BDIV-Mss1 and -Mss7 Rats.

Human malignant peripheral nerve sheath tumors (MPNSTs) are highly aggressive soft-tissue sarcomas with a poor prognosis that arise either in the context of neurofibromatosis 1 or sporadically. Inbred BDIX and BDIV rat strains highly susceptible and resistant, respectively, to the development of ethylnitrosourea-induced MPNST enable us to identify, by using methods not applicable in humans, variant alleles involved in the pathways underlying individual MPNST risk. On the basis of a genome-wide association analysis using reciprocal intercrosses of BDIX and BDIV, BDIV alleles of two loci on chromosome 10, Mss1 and Mss7, were predicted to lower the risk of MPNST, the latter locus with a female bias. In this study we confirm the two nonoverlapping loci by exposing two congenic strains, BDIX.BDIV-Mss1 (Mss1) and BDIX.BDIV-Mss7 (Mss7), each carrying a BDIV genomic segment spanning the respective locus, to ethylnitrosourea. Compared with BDIX rats, the rate of MPNST is reduced 6.2-fold and 2.0-fold for Mss1 and Mss7 rats of both sexes, respectively. Although a moderate gain of survival time (30-50 days) is seen in Mss1 rats of both sexes and Mss7 males, Mss7 females survive 134 days longer than BDIX females. BDIV alleles at Mss7 obviously cause a markedly increased intrastrain sex difference regarding survival time in Mss7 compared with BDIX rats. Fine mapping will lead to the identification of allelic variants modulating rat MPNST risk and subsequently to their human counterparts. This is of particular relevance, because so far neither gene nor anonymous sequence variants have been identified that influence the risk of human sporadic Schwann cell malignancy.

Genetic dissection of the Mss4 locus mediating sex-biased cancer resistance in the rat peripheral nervous system.

The incidence of neural tumors is sexually dimorphic in both, humans and rodents. The identification of genetic determinants contributing to sex-biased tumor development is an essential prerequisite for differential tumor prevention in males and females. F2 hybrids of inbred BDIV and BDIX rats, resistant and susceptible, respectively, to ethylnitrosourea-induced malignant peripheral nerve sheath tumors (MPNST) display a marked sex bias regarding tumor risk. Homozygous BDIV alleles at the Mss4 locus (90.9-111.2 Mb, chromosome 6) mediate MPNST resistance exclusively in female F2 rats according to a genome wide association analysis. This locus was functionally confirmed and fine mapped through MPNST induction in males and females of three congenic rat strains (BDIX.BDIV-Mss4a, b, d). As a consequence, it could be subdivided in Mss4.1 (98.8-99.7 Mb) mediating cancer resistance, and Mss4.2 (99.7-111.2 Mb) enhancing sex specificity. Positional candidate genes were selected through DNA sequencing and expression profiling using RNAs from trigeminal nerve tissue of parental and congenic male and female animals. The transregulatory fingerprint of BDIV or BDIX alleles at Mss4.1 and/or Mss4.2, respectively, provided insight into the processes influencing cancer risk in a sex-biased way. A group of genes, a fraction of which involved in Schwann cell differentiation, showed low, male-biased expression in nerve tissues under the control of BDIX susceptibility alleles, but high, female-biased transcript levels when controlled by BDIV resistance alleles at Mss4. The Esr2 gene located in Mss4.1 constitutes an interesting functional candidate together with a yet unidentified gene/enhancer in Mss4.2.

Chemically induced rat Schwann cell neoplasia as a model for early-stage human peripheral nerve sheath tumors: phenotypic characteristics and dysregulated gene expression.

Most malignant human tumors display a high degree of intratumoral heterogeneity at the time of diagnosis that contributes to treatment failure. This also applies to malignant peripheral nerve sheath tumors (MPNSTs) and aggressive soft tissue sarcomas that arise sporadically or in the context of neurofibromatosis type 1. On average, MPNSTs measure 10 cm in diameter at diagnosis. To explore molecular changes associated with early malignant progression and that may be present in most, if not all, tumor cells, we generated expression profiles of ethylnitrosourea-induced trigeminal MPNSTs in rats. Because these tumors cause increased intracranial pressure, they become detectable when they are comparatively minuscule. Histologic analyses revealed close resemblance to human MPNSTs. Compared with normal trigeminal nerve tissue, 365 genes were markedly upregulated and 310 genes were consistently downregulated in all MPNST samples. The molecular signature characteristic of early-stage MPNSTs included upregulation of proliferation and tissue remodeling-associated genes, downregulation of genes involved in Schwann cell differentiation, and the absence of transcripts associated with neuronal components. The transforming growth factor-ß pathway was consistently upregulated in all tumor samples. These data suggest that the signaling pathways underlying early malignant progression of Schwann cells might be targeted to prevent tumor growth and/or to treat more advanced lesions.

Integration of gender-specific aspects into medical curricula--status quo and future perspectives.

The consideration of gender aspects in clinical routine is of high importance towards an individualized patient care and a starting point of diversity medicine. Gender-specific awareness is an indispensable basis for an optimized medical treatment. A current study at the medical faculties of Muenster and Duisburg-Essen University (Germany) revealed an insufficient knowledge among students and lecturers in this area. An interdisciplinary, international workshop took place in Muenster (Germany) in May 2012 on the topic how to integrate gender aspects into medical curricula in the future aiming at a better health care for both sexes in long term. This position paper summarizes the conclusions. It was suggested to teach gender-specific contents from the first semester comprehensively - using standardized definitions and a gender-neutral language, since it is crucial not to increase the students' workload any further. The key to success is to implement gender aspects by using meaningful examples on a regular basis - ideally in a longitudinal manner. The content of teaching should be selected by the lecturers and full professors and be considered within students´ exams. To reach these goals, an absolute support of the respective medical faculties as well as the integration of these gender-specific learning objectives into the national competence-based learning catalogue for medical education (NKLM) is obligatory.

Sex-biased suppression of chemically induced neural carcinogenesis in congenic BDIX.BDIV-Mss4a rats.

We previously mapped several gene loci influencing cancer risk of inbred BDIV and BDIX rats, resistant and susceptible, respectively, to N-ethyl-N-nitrosourea (ENU)-induced malignant peripheral nerve sheath tumors (MPNSTs). On the basis of a genomewide association analysis using a (BDIV × BDIX) F(2) generation the Mss4 locus on rat chromosome 6 was predicted to mediate resistance to MPNST development in the trigeminal nerves, preferentially in females. F(2) females homozygous for D6Mit1 proved almost exclusively resistant to peripheral neurooncogenesis, with no effect detectable in males. To functionally verify Mss4, a congenic BDIX rat strain was generated carrying a corresponding BDIV genomic fragment. On treatment with ENU, congenic BDIX.BDIV-Mss4a rats showed a 2.4-fold lower MPNST rate and a 55-day-longer survival time compared with BDIX animals. The sex-specific effect observed in F(2) rats was less pronounced in BDIX.BDIV-Mss4a congenics, with males, too, being protected against MPNST but to a lesser extent than females. Transcription profiling using trigeminal nerve tissue of BDIX, BDIV, and BDIX.BDIV-Mss4a congenics of both sexes revealed 61 genes located in the Mss4a fragment differentially expressed between BDIV and BDIX rats. In congenic rats each gene either displayed trans-regulated BDIX-like expression strength or cis-regulated BDIV-like transcript levels or intermediate expression without marked sex differences. Genomewide a number of genes exhibiting male-biased expression in the BDIX rat strain displayed a reversal of the sexual dimorphism in congenic rats similar to the BDIV expression pattern, which might be the basis of preferential protection of females against MPNST development.

Genetic basis of sex-specific resistance to neuro-oncogenesis in (BDIX x BDIV) F(2) rats.

The identification of cancer susceptibility- and resistance-mediating genes is an essential prerequisite for prevention and early diagnosis of malignant tumors. Model organisms are helpful to identify variant alleles involved in pathways affecting individual cancer risk. BDIX and BDIV rats of both sexes are highly susceptible and resistant, respectively, to the development of N-ethyl-N-nitrosourea (ENU)-induced malignant peripheral nerve sheath tumors (MPNST), predominantly in the trigeminal nerves. Nevertheless, female (BDIV x BDIX) F(2) intercross rats have a lower MPNST incidence and a longer latency time than males. Six of seven autosomal gene loci (Mss1-Mss7) controlling genetic susceptibility and resistance in (BDIV x BDIX) F(2) hybrids exert allele- and sex-specific effects on tumor incidence and/or latency time of variable strength. Homozygous BDIV alleles at Mss4 or Mss7 located on rat chromosomes 6 and 10, respectively, are sufficient to cause almost complete resistance to ENU-induced MPNST development in female F(2) rats regardless of the genotype of the other locus. Both loci display only weak effects on male cancer risk. Survival curves of ENU-treated F(2) females depleted of animals with homozygous BDIV alleles at Mss4 and Mss7 are not significantly different from those of males, suggesting that these loci account mainly for the excess tumor resistance observed in female F(2) rats. By haplotype analysis Mss4 and Mss7 could be narrowed down to 20 and 12 Mb, respectively, providing a basis for the positional identification of candidate genes.

Ablation of T cell immunity differentially influences tumor risk in inbred BD rat strains.

Inbred rat strains BDIX and BDIV are constitutionally susceptible and resistant, respectively, to the development of malignant peripheral nerve sheath tumors (MPNST) induced by neonatal exposure to N-ethyl-N-nitrosourea (EtNU). They represent a model system for analysis of molecular and cellular processes underlying differential cancer susceptibility. A point mutation in the Neu/ErbB-2 gene is an early marker of Schwann precursor cells at high risk of malignant conversion and is diagnostic of the resulting MPNST predominantly developing in the trigeminal nerves. Initially considerable amounts of Neu/ErbB-2-mutant cells arise in nerve tissue of both rat strains subsequently disappearing in resistant BDIV rats, but persisting and giving rise to MPNST in susceptible BDIX animals. An almost identical cellular immune response-sequentially involving macrophages, T helper- and cytotoxic T lymphocytes-is mounted in the trigeminal nerves of EtNU-treated rats of both strains. In this study, T cell maturation was prevented by neonatal thymectomy following EtNU-exposure. While resistance against MPNST development significantly decreased in BDIV rats MPNST incidence and survival time remained unaltered in thymectomized BDIX rats. Contrary to euthymic animals a number of both thymectomized BDIV and BDIX rats developed MPNST lacking the Neu/ErbB-2-mutation. This suggests that Schwann cells initiated by other genetic alterations can progress to full malignancy in immune-compromised rats only. T cell-dependent resistance against tumorigenesis originating from non-Neu/ErbB-2-mutant Schwann precursors might thus be shared by both strains while BDIV T lymphocytes additionally prevent the development of Neu/ErbB-2-mutant MPNST. Rat strain-specific differences in the interaction of T lymphocytes with (pre)malignant Neu-mutant cells may thus critically contribute to susceptibility and resistance towards EtNU-induced MPNST development.

The interaction mode of premalignant Schwann and immune effector cells during chemically induced carcinogenesis in the rat peripheral nervous system is strongly influenced by genetic background.

Contrary to rats of the highly sensitive inbred strain BDIX, BDIV rats are resistant to the induction of malignant schwannomas by N-ethyl-N-nitrosourea, arising predominantly in the trigeminal nerves. A point mutation of the neu/erbB-2 gene diagnostic of N-ethyl-N-nitrosourea-induced rat schwannomas is an early marker of Schwann precursor cells at high risk of subsequent malignant transformation. Neu-mutant cells initially arise at a similar frequency in sensitive and resistant animals. However, these cells disappear from the trigeminal nerves of resistant rats while giving rise to highly malignant schwannomas in susceptible animals. The resistance of BDIV rats obviously includes mechanisms to recognize and eliminate premalignant cells. The involvement of a cellular immune response was investigated in trigeminal nerves of both strains at different times after neonatal carcinogen exposure. An inflammatory reaction involving sequentially CD4(+) macrophages and T helper cells, CD8(+) cytotoxic T cells, and ED1(+) and ED2(+) macrophages was detected as a consequence of N-ethyl-N-nitrosourea treatment as early as postnatal day 40, briefly after the emergence of premalignant neu-mutant Schwann cells. It persisted throughout the observation period (40-250 days). However, there were no gross differences in immune cell counts between tumor-susceptible and tumor-resistant rats, except for a moderate increase of ED2(+) macrophages in N-ethyl-N-nitrosourea-treated BDIX rats only. Differential interactions of immune effector cells with premalignant Schwann cells may thus be involved in genetically determined tumor susceptibility or resistance, which could include functional differences of immune effector cells and/or a differential capability of premalignant Schwann cells to escape or counteract the cellular immune response.

Gender-specific polygenic control of ethylnitrosourea-induced oncogenesis in the rat peripheral nervous system.

The inbred BD rat strains constitute a model system for analysis of the genetic basis of susceptibility or resistance to the development of neural tumors, as they exhibit distinct strain-specific differences regarding the sensitivity to tumor induction by the alkylating carcinogen N-ethyl-N-nitrosourea (EtNU). Among the different BD strains, BDIX and BDIV rats, respectively, are either highly susceptible or entirely resistant to the development of EtNU-induced malignant schwannomas of the peripheral nervous system (PNS), predominantly of the trigeminal nerves. We have previously mapped one locus associated with susceptibility/resistance to schwannoma induction to the telomeric third of chromosome 10 (Mss1) in segregating (BDIX x BDIV) crosses. We report on the genetic mapping of 6 further loci controlling tumor incidence or survival time on chromosomes 1 (Mss2), 3 (Mss3), 6 (Mss4), 13 (Mss5) and 15 (Mss6) as well as on chromosome 10 (Mss7) close to the centromere. Interestingly, most of these loci mediate gender-specific effects of variable strength ranging from minor influences on tumor development to complete tumor resistance. The gender specificity is reflected by the fact that male (BDIX x BDIV) F2 rats exhibit a 2-fold higher incidence of EtNU-induced schwannomas than females as well as a shorter survival time. A number of human nervous system tumors too arise with a marked gender bias. Genes mediating gender-specific predisposition of developing malignant schwannomas in the rat may be relevant for the human individual risk of developing nervous system tumors.

Differential modulation of malignant peripheral nerve sheath tumor growth by omega-3 and omega-6 fatty acids.

Neurofibromatosis type 1 (NF1) is a common genetic disorder of the nervous system resulting in neurofibromas and malignant peripheral nerve sheath tumors (MPNST). In this study, we report the modulation of murine and human MPNST cell growth by the fatty acids docosahexaenoic acid (DHA) and arachidonic acid (AA). DHA demonstrated a tendency to stimulate cell growth at low doses and induce apoptosis at high doses, paralleled by the activation of ERK and caspase-3. Furthermore, high-dose DHA reversed the stimulation of MPNST cell growth by a number of growth factors suggested to have a pathogenic effect in NF1 and inhibited MPNST growth in vivo. AA was found to have a reciprocal activity in vitro, stimulating MPNST cell growth at comparable concentrations and reducing DHA activation of ERK. These findings introduce fatty acids as a possible regulator of MPNST development in NF1 patients.

A 6-Mb contig-based comparative gene and linkage map of the rat schwannoma tumor suppressor region at 10q32.3.

Frequent genetic aberrations of malignant schwannomas induced by the alkylating agent N-ethyl-N-nitrosourea in hybrids from inbred BD rat strains include allelic imbalances of the telomeric 20 Mb of chromosome 5 (Dis-2) and of the telomeric 5 Mb of chromosome 10q32 (Dis-1) in 59 and 94% of the tumors, respectively. The Dis-1 minimal loss of heterozygosity consensus region extends from D10Rat4 to the telomere and harbors a putative tumor suppressor gene(s). We constructed a 6-Mb BAC/PAC contig containing more than 70 known genes, 18 mapped microsatellites, and further ESTs/reference RNAs. A continuous block of strongly conserved synteny with mouse chromosome 11E2 and human chromosome 17q25.3 was found. Combining the sequence information from the rat and closely related syntenic regions of different mammalian species produces nearly complete gene maps as a basis for a positional candidate approach and gives insight into mammalian genomic evolution.

The circling behavior of the deafblind LEW-ci2 rat is linked to a segment of RNO10 containing Myo15 and Kcnj12.

The LEW/Ztm-ci2 rat is an autosomal recessive mutant that displays circling behavior, deafness, progressive retinopathy, locomotor hyperactivity, ataxia, and opisthotonus. We performed a genome-wide scan of a (LEW/Ztm-ci2 x BN/Ztm) F1 x LEW/Ztm-ci2 backcross population with anonymous microsatellite markers to analyze the genetics of this mutant rat. This linkage analysis demonstrated a very strong association of RNO10 SSLP markers to the phenotype with a core region in the central part of the chromosome. The knowledge of genes mapping to this part of the rat genome and their linkage to SSLP markers is still poor. We developed SSLP markers closely linked to genes, which might be responsible for the mutant phenotype by using the growing amount of rat-specific DNA sequences available at World Wide Web databases. Application of this method facilitated the search for candidate genes for the phenotype of the LEW-ci2 rat. We were able to map Myo15 and its neighboring genes, Znf179 and Aldh3a1, to the region of interest and Myo1c to a more distal location on RNO10. Further rat BAC clones were used to create a physical map of the region of interest. This map revealed the position of further genes. Among those is Kcnj12. Owing to their localization on RNO10 and their involvement in a similar pathology in human and mouse, Myo15 and Kcnj12 can be regarded as candidate genes for the deafblind phenotype of the LEW-ci2 rat.

Loss of heterozygosity in malignant rat schwannomas chemically induced in hybrids of inbred rat strains with differential tumor susceptibility.

Rats of the inbred BD strains strongly differ in their susceptibility to the induction of tumors of the central (CNS) and peripheral nervous system (PNS) by N-ethyl-N-nitrosourea (EtNU). Malignant schwannomas induced in (BDIX x BDIV) and (BDIX x BDVI) rat hybrids were analyzed to identify genetic alterations associated with EtNU-induced tumorigenesis in the PNS. EtNU-induced schwannomas exclusively exhibit an A:T T:A transversion mutation of the neu/Erbb-2 gene located on chromosome 10, with subsequent loss of the wild-type neu/Erbb-2 allele at a post-initiation stage. Targeted allelic deletion mapping previously revealed losses of heterozygosity (LOH) at the distal end of chromosome 10 in a large majority of (BDIX x BDIV) schwannomas. The aims of the present study were (i) to scan the whole genome for further LOHs; (ii) to narrow down the consensus regions of frequently occurring allelic deletions using tumors from different crosses of BD rats; and (iii) to determine the sequence of genetic alterations during schwannoma development. A limited number of (BDIX x BDIV) F(1) tumors were initially screened for LOH and microsatellite instability (MI) by amplifying 58 microsatellite markers spanning the whole genome. LOHs on chromosome 5 were detected in 9/17 tumors, with random loss of the parental alleles. Ninety-two schwannomas from different BD rat-crosses were then analyzed to solidify these data and to determine the consensus region of frequent LOHs. The results indicate that LOHs on chromosomes 10 and 5 are required for the development of EtNU-induced malignant schwannomas from immature neu/Erbb-2 mutant glial cells, and that putative tumor suppressor genes are localized on chromosome 10q32.3, corresponding to human chromosome 17q25.3, and the telomeric region of mouse chromosome 11, and on the telomeric quarter of chromosome 5. MI was detected in <0.2% of cases.