Adaptation of the WHO guideline for residual DNA in parenteral vaccines produced on continuous cell lines to a limit for oral vaccines.

Although there is a WHO guidance for a limit on residual DNA for parenterally administered vaccines produced on continuous cell lines, there is no corresponding guidance for oral vaccines. To help determine an oral limit, we performed a study of Vero cell DNA uptake in rats, in which the relative uptake and persistence of Vero cell DNA administered orally was compared to its uptake when delivered intramuscularly (IM). The results of this study allowed the generation of an empirically derived IM versus oral factor (10(6)) representing the relative inefficiency of DNA uptake by oral administration. This factor was then applied to the WHO recommended parenteral limit of 10 ng/dose to determine a corresponding upper limit on the level of residual Vero cell DNA for an oral vaccine of 10 mg. As a conservative approach, this empirically determined limit was reduced 100-fold to 100 microg. Thus, the results of this animal study, together with additional evidence in the literature, support a residual DNA safety limit of 100 microg per dose for an oral vaccine produced on a continuous cell line.

Altered sensitivity of CD81-deficient mice to neurobehavioral effects of cocaine.

CD81, also known as target of the antiproliferative antibody, is known to be expressed in astrocytes and involved in cell adhesion and, recently, we demonstrated its induction exclusively in the accumbens following cocaine. In the present study, the sensitivity of CD81-deficient mice to behavioral effects of cocaine was evaluated. It was found that CD81-deficient mice exhibited altered sensitivity to cocaine as assessed in the place preference conditioning paradigm and locomotor activity. This deficit in place preference conditioning was not accompanied by a deficit in acquisition or retention of water maze behavior. In addition, CD81 knockout mice exhibited higher levels of nucleus accumbens dopamine as compared to their controls. These observations are discussed in the context of the role of CD81 in cocaine-mediated behaviors.

Regulation of EphB1 expression by dopamine signaling.

The Eph family tyrosine kinase receptors and their ligands have been implicated in axon guidance and neuronal migration during development of the nervous system. In the current study, we aim to characterize the nature of changes in EphB1 receptor expression following increases or decreases in dopamine activity. Neonatal mice (P3) were injected with 6-hydroxydopamine and allowed 13 days to recover. These animals show a profound depletion of dopamine in all areas assayed, with a corresponding dose-dependent decrease in EphB1 expression. Day 3 pups were also injected either chronically (P3-P16) or acutely (P3 only) with cocaine to determine how enhancing dopamine signaling would affect EphB1 signal density. It was found that both treatments significantly increased expression of EphB1 in the cortex, striatum and substantia nigra. Finally, animals were treated prenatally (E15-E17) with cocaine and sacrificed on P7. These animals also showed an increase in EphB1 signal density, but only in the dopaminergic terminal areas in the cortex and striatum. These studies indicate that dopamine activity regulates developmental expression of the tyrosine kinase receptor EphB1.