These results indicate that toluene exposure during the brain growth spurt produces long-term changes in nicotine sensitivity, which may be unrelated to the total expression levels of alpha 4, alpha 7, and beta 2 nicotinic receptors. The alterations in nicotine sensitivity may be related to the neurobehavioral disturbance associated with fetal solvent syndrome.”
“McLeod syndrome is a rare X-linked neuroacanthocytosis syndrome with hematologic, muscular, and neurologic manifestations. McLeod syndrome is caused by mutations in the XK gene whose product is
expressed at the red blood cell (RBC) surface Smoothened Agonist in vivo but whose function is currently unknown. A variety of XK mutations has been reported but no clear phenotype-genotype correlation has been found, especially for the point mutations affecting splicing sites.\n\nA man suspected of
neuroacanthocytosis was evaluated by neurologic examination, electromyography, muscle biopsy, muscle computed A-1155463 cost tomography, and cerebral magnetic resonance imaging. The McLeod RBC phenotype was disclosed by blood smear and immunohematology analyses and then confirmed at the biochemical level by Western blot analysis. The responsible XK mutation was characterized at the mRNA level by reverse transcription-polymerase chain reaction (PCR), identified by genomic DNA sequencing, and verified by allele-specific PCR.\n\nA novel XK splice site mutation (IVS1-1G > A) has been identified in a McLeod patient who has developed hematologic, neuromuscular, and neurologic symptoms. This is the first reported example of a XK point mutation affecting the 3′ acceptor splice site of
Intron 1, and it was demonstrated that this mutation indeed induces aberrant splicing of XK RNA and lack of XK protein at the RBC membrane.\n\nThe detailed characterization at the molecular biology level of this novel XK splice site mutation associated with the clinical description of the patient contributes to a better understanding of the phenotype-genotype correlation in the McLeod syndrome.”
“Multiple sclerosis (MS) is an autoimmune disorder of the central nervous system. The Mcl-1 apoptosis remitting-relapsing experimental autoimmune encephalomyelitis (EAE) in the SJL mouse strain is a common animal model for MS and similar to the human disease it is considered to be T helper cell mediated. Besides interferon-? secreting TH1 cells in particular the TH17 subset is believed to be highly pathogenic. Spreading of the TH1 and TH17 response to newly emerging determinants has been used to explain clinical disease relapse, but if the magnitude of the TH1/TH17 response is linked to clinical relapse severity has remained unresolved. Here, we assessed clinical EAE severity, the extent of spinal cord histopathology and the magnitude of the antigen-specific T helper cell and autoantibody response in proteolipid protein peptide 139151 (PLP:139151)-immunized SJL mice in clinical remission and relapse.