The function of the low-affinity nerve growth factor (NGF) receptor, p75NGFR, in regulating neuronal survival during development is unclear. The sensory deficit in mice with mutated p75NGR suggests it is necesary for development ofsensory neurons; however, whether it is required, in addition to trkA, for signal transduction or is more involved in localization of NGF is unresolved. In Survival was assessed by counting viable neurons in individual Terasaki wells at the start (3 hr after plating) and end of the experiments (usually at 48-60 hr after plating). Neuronal survival was determined by the phase-microscopic criteria of neuronal morphology, phase-brightness, cytoplasmic integrity, and nongranularity. To establish accuracy of the counting procedure, counts were initially performed "blind" by the experienced cell counters, in almost all cases with close agreement in results. This comparison of counts by different observers was repeated periodically to ensure that accuracy was maintained. In experiments using NGF, the NGF was added at the time of plating. When oligonucleotides were used, they were briefly mixed and triturated with the cells immediately prior to plating and were included in the plating medium.Antisense Oigonucleotides. Oligonucleotides were synthesized on an automatic synthesizer (Applied Biosystems 380B) and sulfurized to the phosphorothioate form with tetraethylthiuram disulfide. They were purified by reverse-phase HPLC, eluted in acetonitrile, lyophilized and reconstituted in H20 twice to remove volatile contaminants, and then further purified by Sephadex G-25 gel filtration. 18-mer or 19-mer phosphorothioate oligonucleotides were used in most cases, and the sequences chosen were directed against the 3' end of the coding region [based on a previous p75NP0R antisense study (4)] and against a region spanning the initiation codon at the 5' end. Scrambled (nonsense) and sense oligonucleotides were used as controls. Sequences used were as follows (all sequences are written 5' -+ 3'): rat 3' antisense, AGTG-GACTCGCTGCATAG; rat 3' sense, CTATGCAGC-GAGTCCACT; rat 5' antisense, ACCTGCCCTCCTCAT-TGCA; rat 5' nonsense, CTCCCACTCGTCATTCGAC; chicken 3' antisense, GGTGGACTCGCTGTACAG (15/18 homology with corresponding rat sequence); and an unrelated nonsense sequence, TCTTCTTCAAGCTTTGGC. A 26-mer antisense sequence to rat p75NGFR, based on the 5' region (CATTGCACGCCTCCGGCGTCAGCGCT), was tried in separate experiments and found to be effective but less so than the smaller antisense oligonucleotides described above. Most ofthe oligonucleotides used were obtained from more than one synthesis over the duration of the experiments, and in each case the effect of the oligonucleotide was maintained over separate syntheses. Immun g. Although the majority of survival assays were performed in mouse cells, rat cells were used for immunostaining as the monoclonal antibody (MC192, Boehringer Mannheim) does not detect mouse p75NOFR (5). Singlecell suspensions of P2 rat DRG cells were prepared as described above, ...
