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Anti-NGF monoclonal antibody muMab 911 does not deplete neurons in the superior cervical ganglia of young or old adult rats.

Authors :
Marcek, John
Okerberg, Carlin
Liu, Chang-Ning
Potter, David
Butler, Paul
Boucher, Magalie
Zorbas, Mark
Mouton, Peter
Nyengaard, Jens R.
Somps, Chris
Source :
Journal of Chemical Neuroanatomy. Oct2016 Part B, Vol. 76, p133-141. 9p.
Publication Year :
2016

Abstract

Nerve growth factor (NGF) blocking therapies are an emerging and effective approach to pain management. However, concerns about the potential for adverse effects on the structure and function of the peripheral nervous system have slowed their development. Early studies using NGF antisera in adult rats reported effects on the size and number of neurons in the sympathetic chain ganglia. In the work described here, both young adult (6–8 week) and fully mature (7–8 month) rats were treated with muMab 911, a selective, murine, anti-NGF monoclonal antibody, to determine if systemic exposures to pharmacologically active levels of antibody for 1 month cause loss of neurons in the sympathetic superior cervical ganglia (SCG). State-of-the-art, unbiased stereology performed by two independent laboratories was used to determine the effects of muMab 911 on SCG neuronal number and size, as well as ganglion size. Following muMab 911 treatment, non-statistically significant trends toward smaller ganglia, and smaller and fewer neurons, were seen when routine, nonspecific stains were used in stereologic assessments. However, when noradrenergic neurons were identified using tyrosine hydroxylase (TH) immunoreactivity, trends toward fewer neurons observed with routine stains were not apparent. The only statistically significant effects detected were lower SCG weights in muMab 911-treated rats, and a smaller volume of TH immunoreactivity in neurons from younger rats treated with muMab 911. These results indicate that therapeutically relevant exposures to the anti-NGF monoclonal antibody muMab 911 for 1 month have no effect on neuron numbers within the SCG from young or old adult rats. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
08910618
Volume :
76
Database :
Academic Search Index
Journal :
Journal of Chemical Neuroanatomy
Publication Type :
Academic Journal
Accession number :
118266627
Full Text :
https://doi.org/10.1016/j.jchemneu.2016.05.007