PCR-RFLP was used to analyze the polymorphisms of MC4R, LEP, H-FABP genes in a swine breed composite (DIV(2)) and 4 swine breeds (Yorkshire, Landrace, Meishan, Bamei). The association study of these polymorphisms with several economic traits was carried out on a DIV(2) population. The results obtained showed that MC4R/TaqI genotype had an effect for average backfat thickness (P < 0.05) and lean meat percentage (P < 0.05). At locus LEP/HinfI animals of AA genotype had lower test daily gain than that of BB (P < 0.01) or AB genotype (P < 0.05). At the H-FABP/HaeIII locus lean meat percentage of the individuals with genotype DD were higher than that with genotype dd (P < 0.05). Linkage disequilibrium analysis among MC4R, LEP and H-FABP revealed that these genes were independent. This represented two or more genes that could be combined together within one genotype in order to facilitate breeding for objective traits. In addition, a method allowing simultaneous detection of fragments of MC4R and LEP gene was developed.

Aims: To identify the potential role of macrophage inflammatory protein-1α (MIP-1α) with its CCR5 receptor in epileptogenic brain injury, we examined their expression in juvenile rat hippocampus and explored the potential link between MIP-1α, CCR5 and neuropathological alterations after status epilepticus (SE) induced by intracerebroventricular (i.c.v.) kainic acid (KA) injection. Methods: Based on the determination of the development of spontaneous seizures initiated by SE in developing rat brain, we firstly examined hippocampal neuron damage through Nissl and Fluoro-Jade B staining, and evaluated microglial reaction during the early phase following KA-induced SE in 21-day-old rats. MIP-1α and CCR5 protein were quantified by ELISA and western blot respectively following mRNA by real-time PCR. We also mapped MIP-1α and CCR5 expression in the hippocampus by immunohistochemistry and identified their cellular sources using double-labeling immunofluorescence. Results: In juvenile rats, KA caused characteristic neuron damage in the hippocampal subfields, with accompanying microglial accumulation. In parallel with mRNA expression, MIP-1α protein in hippocampus was transiently increased after KA treatment, and peaked from 16 to 72 h. Double-labeling immunofluorescence revealed that MIP-1α was localized to microglia. Up-regulated CCR5 remained prominent at 24 and 72 h and was mainly localized to activated microglia. Further immunohistochemistry revealed that MIP-1α and CCR5 expression were closely consistent with microglial accumulation in corresponding hippocampal subfields undergoing degenerative changes. Conclusions: Our data indicated that MIP-1α as a regulator, linking with the CCR5 receptor, may be involved within the early stages of the epileptogenic process following SE by i.c.v. KA injection. © 2012 The Authors. Neuropathology and Applied Neurobiology © 2012 British Neuropathological Society.

Based on previous studies, we had made a try to administer sodium pyruvate to newborn Wistar rats suffering repetitive and profound hypoglycemia, which can induce brain injury. Fluoro-Jade B was used to marked degenerative neurons 1 day after the third hypoglycemic insult, and Morris water navigation task was performed to assess cognitive function when the rats were 6 weeks old. We found that administration of sodium pyruvate to those rats whose hypoglycemia was terminated by dextrose can reduce neurodegeneration induced by hypoglycemia and improve the cognitive function. Supplementing sodium pyruvate with glucose to terminate severe neonatal hypoglycemia is an effective intervention.

Tuberous sclerosis complex is an autosomal-dominant heritable disease caused by mutations in the TSC1 and TSC2 genes. We studied a Chinese patient with sporadic tuberous sclerosis complex. The clinical features of this patient included epilepsy, hypomelanotic macules and angiofibromas on his back; a cranial CT scan showed subependymal nodules along the lateral walls of the lateral ventricles. The TSC1 and TSC2 genes were studied by PCR and direct sequencing of the entire coding region and exon-intron boundaries of these genes. A novel deletion mutation (c.1964delA) in the TSC1 gene exon 15 was identified, which was not present in his parents or 100 unrelated normal controls. This is the first report of this c.1964delA mutation of the TSC1 gene, associated with tuberous sclerosis complex, expanding the spectrum of TSC1 mutations that cause this disease.

Cleidocranial dysplasia (CCD) is an autosomal-dominant heritable skeletal disease caused by heterozygous mutations in the RUNX2 gene. We studied a Chinese family that included three affected individuals with CCD phenotypes; the clinical features of patients with CCD include delayed closure of fontanelles, frontal bossing, dysplasia of clavicles, late tooth eruption, and other skeletal anomalies. X-ray analysis showed aplasia of the clavicles. The RUNX2 gene was studied by PCR and direct sequencing of the entire coding region and the exon-intron boundaries of the gene. A novel missense mutation (c.1259C-->T[p.T420I]) in RUNX2 gene exon 7 was identified; it was found in the affected individuals in this Chinese family, but was not present in an unaffected family member or in 100 unrelated normal controls. This is the first report that gives evidence that the T420I mutation of RUNX2 is associated with CCD, expanding the spectrum of RUNX2 mutations causing CCD.

BACKGROUND: Islet beta-cells are almost completely destroyed when patients with type 1 diabete are diagnosed. To date, insulin substitute therapy is still one of the main treatments. The cure of type 1 diabetes requires beta-cell regeneration from islet cell precursors and prevention of recurring autoimmunity. Therefore, beta-cell regeneration and proliferation emerge as a new research focus on therapy for type 1 diabetes. Islet beta-cell regeneration and development are controlled by many growth factors, especially insulin-like growth factor-1 (IGF-1). METHODS: Recombinant adenovirus encoding rat IGF-1 (rIGF-1) was constructed and transduced into rat beta-cells, RINm5F cells. Western blotting analysis and ELISA were used to detect rIGF-1 protein. Streptozotocin (STZ) was used to induce RINm5F cell destruction. The level of nitric oxide (NO) was detected in cell culture supernatants by the Griess reaction. Islet cell function was evaluated by glucose-stimulated insulin production. Flow cytometry analysis was further used to investigate the apoptosis of RINm5F cells. Thiaoollyl blue viability assay was applied to determine cell viability. RESULTS: The recombined adenovirus-rIGF-1 was successfully constructed and the titer was 4.0 x 10(8) pfu/ml. The rIGF-1 protein was effectively expressed in the RINm5F cells and cell culture supernatants. rIGF-1 expression remarkably inhibited STZ-induced islet cell apoptosis and significantly decreased the level of NO. Furthermore, IGF-1 expression also significantly protected insulin secretion and cell proliferation in a time-dependent manner. CONCLUSIONS: Our study suggests that locally produced rIGF-I from RINm5F cells may be beneficial in maintaining beta-cell function, protecting beta-cells from the destruction of apoptosis factors and promoting beta-cell survival and proliferation. IGF-I might be considered as a candidate gene in gene therapy for type 1 diabetes. In addition, it appears that the apoptosis induced by STZ may be NO-dependent.

Epilepsy is a common neurological disorder that occurs more frequently in childhood than in adulthood. Antiepileptic drugs (AEDs) which are used to treat seizures in pregnant women, infants, and young children may cause cognitive impairment or other uncertain injury. However, the exact mechanisms responsible for adverse effects of AEDs in the developing brain are still not clear. In the present study, we investigate the effects of AEDs on mRNA levels of brain-derived neurotrophic factor (BDNF) and neurotrophin-3 (NT-3), cell neogenesis and mossy fiber sprouting (MFS) in the developing rat brain. Long-term treatment with Phenobarbital (40mg/kg), valproate (100mg/kg) and topiramate (40mg/kg) reduces BDNF and NT-3 mRNA expression in the developing brain, while lamotrigine reduces mRNA expression only at high dose level (80mg/kg). Cell neogenesis only increases in the rats treated with valproate and lamotrigine. And no differences are observed between the control group and the AEDs-treated groups in the Timm scores of the CA3 region and supragranular region. Our findings present some possible mechanisms to explain why different AEDs cause different cognitive impairment.

Dehydroepiandrosterone (DHEA) is an abundant adrenal steroid in serum of humans, and has been reported to have anti-inflammatory, anti-proliferative, and certain immune-regulating properties. Experimental autoimmune neuritis (EAN) is a Th1 cell-mediated animal model of Guillain-Barré syndrome (GBS) in humans. In the present study, DHEA was administered subcutaneously to Lewis rats immunized with bovine peripheral myelin (BPM) in Freund's complete adjuvant. Rats treated with DHEA displayed significant delay in onset, decreased inflammatory cell infiltration in the PNS. Benefit was associated with significant decreases in numbers of IFN-gamma and TNF-alpha expressing cells in the PNS, BPM-stimulated T cell proliferation and IFN-gamma, TNF-alpha-secretion in the spleen cells. Only 2 mg DHEA-treated EAN rats decreased peak clinical score. No significant difference of supernatant IL-10 was found among the treatment and control groups. These results suggest that DHEA can ameliorate the severity of EAN by suppressing the proliferation of autoreactive T cell and expression of pro-inflammatory cytokines.