Carrier testing for spinal muscular atrophy.

Spinal muscular atrophy is the most common fatal hereditary disease among newborns and infants. There is as yet no effective treatment. Although a carrier test is available, currently there is disagreement among professional medical societies who proffer standards of care as to whether or not carrier screening for spinal muscular atrophy should be offered as part of routine reproductive care.

Karyopherin binding interactions and nuclear import mechanism of nuclear pore complex protein Tpr.

Background: Tpr is a large protein with an extended coiled-coil domain that is localized within the nuclear basket of the nuclear pore complex. Previous studies 1 involving antibody microinjection into mammalian cells suggested a role for Tpr in nuclear export of proteins via the CRM1 export receptor. In addition, Tpr was found to co-immunoprecipitate with importins alpha and beta from Xenopus laevis egg extracts 2, although the function of this is unresolved.

In vitro dendritic cell infection by pseudotyped adenoviral vectors does not correlate with their in vivo immunogenicity.

Expression of antigens in dendritic cells (DC) can stimulate protective immunity against both viral infection and tumor growth, making them important targets for gene therapy. In-vitro-generated DC are commonly used in gene delivery studies with the assumption that the results will correlate with in vivo activity. Adenovirus Type 5 (Ad5) vectors have been widely used with DC, but these cells lack the primary receptor (CAR) used by Ad5 and are poorly infected.

The curly-tail (ct) mouse, an animal model of neural tube defects, displays altered homocysteine metabolism without folate responsiveness or a defect in Mthfr.

Maternal mild hyperhomocysteinemia is associated with increased risk for bearing children with neural tube defects (NTD). Folate intake corrects hyperhomocysteinemia and prevents up to 70% of NTD. The curly-tail (ct) mouse, an animal model for NTD, has been suggested to display features that closely resemble the human defect.

Tpr is localized within the nuclear basket of the pore complex and has a role in nuclear protein export.

Tpr is a coiled-coil protein found near the nucleoplasmic side of the pore complex. Since neither the precise localization of Tpr nor its functions are well defined, we generated antibodies to three regions of Tpr to clarify these issues. Using light and EM immunolocalization, we determined that mammalian Tpr is concentrated within the nuclear basket of the pore complex in a distribution similar to Nup153 and Nup98.