Tetanus toxin fragment C fusion facilitates protein delivery to CNS neurons from cerebrospinal fluid in mice
Tetanus toxin fragment C fusion facilitates protein delivery to CNS neurons from cerebrospinal fluid in mice
2005 Nov
Benn SC, Ay I, Bastia E, Chian RJ, Celia SA, Pepinsky RB, Fishman PS, Brown RH Jr, Francis JW.
J Neurochem.
To improve protein delivery to the CNS following intracerebroventricular administration, we compared the distribution of a human Cu/Zn superoxide dismutase:tetanus toxin fragment C fusion protein (SOD1:TTC) in mouse brain and spinal cord with that of tetanus toxin fragment C (TTC) or human SOD1 (hSOD1) alone, following continuous infusion into the lateral ventricle. Mice infused with TTC or SOD1:TTC showed intense anti-TTC or anti-hSOD1 labeling, respectively, throughout the CNS. In contrast, animals treated with hSOD1 revealed moderate staining in periventricular tissues. In spinal cord sections from animals infused with SOD1:TTC, the fusion protein was found in neuron nuclear antigen-positive (NeuN+) neurons and not glial fibrillary acidic protein-positive (GFAP+) astrocytes. The percentage of NeuN+ ventral horn cells that were co-labeled with hSOD1 antibody was greater in mice treated with SOD1:TTC (cervical cord = 73 +/- 8.5%; lumbar cord = 62 +/- 7.7%) than in mice treated with hSOD1 alone (cervical cord = 15 +/- 3.9%; lumbar cord = 27 +/-4.7%). Enzyme-linked immunosorbent assay for hSOD1 further demonstrated that SOD1:TTC-infused mice had higher levels of immunoreactive hSOD1 in CNS tissue extracts than hSOD1-infused mice. Following 24 h of drug washout, tissue extracts from SOD1:TTC-treated mice still contained substantial amounts of hSOD1, while extracts from hSOD1-treated mice lacked detectable hSOD1. Immunoprecipitation of SOD1:TTC from these extracts using anti-TTC antibody revealed that the recovered fusion protein was structurally intact and enzymatically active. These results indicate that TTC may serve as a useful prototype for development as a non-viral vehicle for improving delivery of therapeutic proteins to the CNS.
PMID: 16271047 [PubMed - indexed for MEDLINE]
Votes:20