A rat model for LGI1-related epilepsies.

Mutations of the leucine-rich glioma-inactivated 1 (LGI1) gene cause an autosomal dominant partial epilepsy with auditory features also known as autosomal-dominant lateral temporal lobe epilepsy. LGI1 is also the main antigen present in sera and cerebrospinal fluids of patients with limbic encephalitis and seizures, highlighting its importance in a spectrum of epileptic disorders. LGI1 encodes a neuronal secreted protein, whose brain function is still poorly understood. Here, we generated, by ENU (N-ethyl-N-nitrosourea) mutagenesis, Lgi1-mutant rats carrying a missense mutation (L385R). We found that the L385R mutation prevents the secretion of Lgi1 protein by COS7 transfected cells. However, the L385R-Lgi1 protein was found at low levels in the brains and cultured neurons of Lgi1-mutant rats, suggesting that mutant protein may be destabilized in vivo. Studies on the behavioral phenotype and intracranial electroencephalographic signals from Lgi1-mutant rats recalled several features of the human genetic disorder. We show that homozygous Lgi1-mutant rats (Lgi1(L385R/L385R)) generated early-onset spontaneous epileptic seizures from P10 and died prematurely. Heterozygous Lgi1-mutant rats (Lgi1(+/L385R)) were more susceptible to sound-induced, generalized tonic-clonic seizures than control rats. Audiogenic seizures were suppressed by antiepileptic drugs such as carbamazepine, phenytoin and levetiracetam, which are commonly used to treat partial seizures, but not by the prototypic absence seizure drug, ethosuximide. Our findings provide the first rat model with a missense mutation in Lgi1 gene, an original model complementary to knockout mice. This study revealed that LGI1 disease-causing missense mutations might cause a depletion of the protein in neurons, and not only a failure of Lgi1 secretion.

Hypercholesterolemia and atherosclerosis in low density lipoprotein receptor mutant rats.

To establish low density lipoprotein receptor (LDLR) mutant rats as a hypercholesterolemia and atherosclerosis model, we screened the rat LDLR gene for mutations using an N-ethyl-N-nitrosourea mutagenesis archive of rat gene data, and identified five mutations in its introns and one missense mutation (478T>A) in exon 4. The C160S mutation was located in the ligand binding domain of LDLR and was revealed to be equivalent to mutations (C160Y/G) identified in human familial hypercholesterolemia (FH) patients. The wild type, heterozygous, and homozygous mutant rats were fed a normal chow diet or a high fat high cholesterol (HFHC) diet from the age of 10 weeks for 16 weeks. The LDLR homozygous mutants fed the normal chow diet showed higher levels of plasma total cholesterol and LDL cholesterol than the wild type rats. When fed the HFHC diet, the homozygous mutant rats exhibited severe hyperlipidemia and significant lipid deposition from the aortic arch to the abdominal aorta as well as in the aortic valves. Furthermore, the female homozygous mutants also developed xanthomatosis in their paws. In conclusion, we suggest that LDLR mutant rats are a useful novel animal model of hypercholesterolemia and atherosclerosis.

A protocol for rat in vitro fertilization during conventional laboratory working hours.

In vitro fertilization (IVF) is a valuable technique for the propagation of experimental animals. IVF has typically been used in mice to rapidly expand breeding colonies and create large numbers of embryos. However, applications of IVF in rat breeding experiments have stalled due to the inconvenient laboratory work schedules imposed by current IVF protocols for this species. Here, we developed a new rat IVF protocol that consists of experimental steps performed during common laboratory working hours. Our protocol can be completed within 12 h by shortening the period of sperm capacitation from 5 to 1 h and the fertilization time from 10 to 8 h in human tubal fluid (HTF) medium. This new protocol generated an excellent birth rate and was applicable not only to closed colony rat strains, such as Wistar, Long-Evans, and Sprague-Dawley (SD), but also to the inbred Lewis strain. Moreover, Wistar and Long-Evans embryos prepared by this protocol were successfully frozen by vitrification and later successfully thawed and resuscitated. This protocol is practical and can be easily adopted by laboratory workers.

Production of progeny mice by intracytoplasmic sperm injection of repeatedly frozen and thawed spermatozoa experimental technique.

Methods for generating genetically engineered mice have progressed, and the number of valuable mouse strains has increased rapidly, requiring methods for managing and maintaining these strains. Sperm cryopreservation and assisted-reproduction techniques, such as intracytoplasmic sperm injection (ICSI), can contribute greatly; however, the number of possible progeny is limited due to the finite number of cryopreserved preparations. The ability to refreeze and reuse sperm preparations would extend the utility of each cryopreserved sperm preparation. The purpose of this study was to develop a reproduction protocol involving ICSI that yielded live progeny after repeated freezing and thawing of a cryopreserved sperm preparation. We used mouse sperm subjected to repeat freezing and thawing in TYH medium for in vitro fertilization. Three inbred strains of laboratory mice--C57BL/6J, BALB/cA, and C3H/HeN--were reproduced by ICSI after reuse of a sperm preparation that had been frozen and thawed repeatedly. In particular, C57BL/6J progeny could be reproduced from spermatozoa frozen and thawed 10 times. From these results, we conclude that the reuse of cryopreserved spermatozoa can extend the opportunities for reproduction of progeny from cryopreserved sperm and can increase the utility of cryopreserved preparations as bioresources. Our results broaden management options regarding bioresource banking, particularly for mice.

Disruption of genetic interaction between two autosomal regions and the X chromosome causes reproductive isolation between mouse strains derived from different subspecies.

Reproductive isolation that initiates speciation is likely caused by incompatibility among multiple loci in organisms belonging to genetically diverging populations. Laboratory C57BL/6J mice, which predominantly originated from Mus musculus domesticus, and a MSM/Ms strain derived from Japanese wild mice (M. m. molossinus, genetically close to M. m. musculus) are reproductively isolated. Their F1 hybrids are fertile, but successive intercrosses result in sterility. A consomic strain, C57BL/6J-ChrX(MSM), which carries the X chromosome of MSM/Ms in the C57BL/6J background, shows male sterility, suggesting a genetic incompatibility of the MSM/Ms X chromosome and other C57BL/6J chromosome(s). In this study, we conducted genomewide linkage analysis and subsequent QTL analysis using the sperm shape anomaly that is the major cause of the sterility of the C57BL/6J-ChrX(MSM) males. These analyses successfully detected significant QTL on chromosomes 1 and 11 that interact with the X chromosome. The introduction of MSM/Ms chromosomes 1 and 11 into the C57BL/6J-ChrX(MSM) background failed to restore the sperm-head shape, but did partially restore fertility. This result suggests that this genetic interaction may play a crucial role in the reproductive isolation between the two strains. A detailed analysis of the male sterility by intracytoplasmic sperm injection and zona-free in vitro fertilization demonstrated that the C57BL/6J-ChrX(MSM) spermatozoa have a defect in penetration through the zona pellucida of eggs.

Rescue of infertile transgenic rat lines by intracytoplasmic injection of cryopreserved round spermatids.

Transgenic male rats carrying human alpha-lactalbumin with thymidine kinase gene (line name; LAC3) were found to be infertile due to expression of the transgene in the testes. Furthermore, it was not possible to maintain the line even by the use of intracytoplasmic sperm injection (ICSI). Therefore, round spermatids prepared from the LAC3 rats were microinjected into strontium-activated oocytes using a Piezo-driven micromanipulator. Of 263 oocytes microinjected with LAC3 spermatids, 244 (92.8%) survived the injection and 96 (39.3%) developed to the 2-cell stage. Three viable offspring were born after transfer (1.4%, 3/219), and two offspring carried the LAC3 transgene. In the control experiment using spermatids of Wistar rats, similar proportions of post-injection survival (91.3%, 241/264), cleavage (40.2%, 97/241), and development into offspring (0.5%, 1/206) were obtained. Thus, this paper reports not only the first rat offspring derived from round spermatid injection but also the practical application of the microinsemination technique to the rescue of transgenes of infertile transgenic male rats.

Offspring derived from intracytoplasmic injection of transgenic rat sperm.

The objective of the present study was to produce rat offspring by intracytoplasmic sperm injection (ICSI) using a Piezo-driven micromanipulator. Transgenic male rats carrying a green fluorescent protein gene (GFP: homozygous) were used as sperm donors. The epididymal spermatozoa were suspended and sonicated in m-KRB medium and were frozen in the same medium at -20 degrees C until use. When the sperm heads were aspirated into injection pipettes 7-10 microm in diameter and introduced into oocytes from the Wistar strain, no offspring resulted from the transfer of 59 eggs. In contrast, the sperm heads were hung on the tip of injection pipettes 2-4 microm in diameter and introduced into the oocytes, use of Piezo resulting in the production of 18 transgenic offspring carrying the GFP gene from 181 eggs transferred. The oocytes from the Sprague-Dawley strain also supported full-term development following ICSI with three offspring resulting from 163 transferred eggs. In an additional ICSI trial, spermatozoa from infertile transgenic rats carrying human lactalbumin with the thymidine kinase gene (LAC3: heterozygous) were used. The spermatozoa of the LAC3 transgenic rats appeared to be defective and immotile because of the expression of thymidine kinase in the testes, and no ICSI offspring resulted from 218 transferred eggs. These results suggest that ICSI is applicable in rats when Piezo-driven smaller pipettes are used to inject sperm heads together with a limited amount of the surrounding medium and that the ability of isolated sperm heads to participate in normal embryo development is maintained under the cryopreservation conditions employed.