Third-generation rabies viral vectors allow nontoxic retrograde targeting of projection neurons with greatly increased efficiency

“…Data distribution was assumed to be normal, but this was not formally tested. No statistical methods were used to predetermine sample sizes, but our sample sizes are similar to those reported in previous publications 50 and are as large as practical given the large number of conditions tested.…”

“…Perhaps notably, our finding that ∆GL RVs do not spread when not complemented by L expression in trans , even when G is provided in trans , indicates that deletion of either L or G alone is sufficient to prevent transsynaptic spread. This suggests the possibility of a third-generation monosynaptic tracing system, based on single-deletion-mutant ∆L viruses 50 complemented by expression in trans of just L.…”

Long-term labeling and imaging of synaptically connected neuronal networks in vivo using double-deletion-mutant rabies viruses

“…Data distribution was assumed to be normal, but this was not formally tested. No statistical methods were used to predetermine sample sizes, but our sample sizes are similar to those reported in previous publications 50 and are as large as practical given the large number of conditions tested.…”

“…Perhaps notably, our finding that ∆GL RVs do not spread when not complemented by L expression in trans , even when G is provided in trans , indicates that deletion of either L or G alone is sufficient to prevent transsynaptic spread. This suggests the possibility of a third-generation monosynaptic tracing system, based on single-deletion-mutant ∆L viruses 50 complemented by expression in trans of just L.…”

Long-term labeling and imaging of synaptically connected neuronal networks in vivo using double-deletion-mutant rabies viruses

“…One limitation of the experimental platform is the neurotoxic potential associated with the use of rabies virus for retrograde tracing over time. [91][92][93] This issue underscores the importance of utilizing and further adapting less toxic rabies-based labeling strategies for glioblastoma, 93,94 to enable longer observation periods without adverse effects on neuronal health. Further, rabies virus-mediated retrograde tracing did not label all synaptic inputs in previous work, illustrating that the labeled connected TUM are possibly still an underestimation of the entire neuronal connectome of glioblastoma.…”

Characterizing and targeting glioblastoma neuron-tumor networks with retrograde tracing

“…In this issue of Cell Reports Methods , Jin and colleagues describe the synthesis and validation of a “third generation” B19-based rabies viral vector called RVΔL ( Figure 1 ). 11 RVΔL builds on the best features of its predecessors, specifically low toxicity (like RVΔGL) and high viral titer (like RVΔG). Specifically, the authors show that when only L is deleted from the rabies genome, it gains a major growth advantage over RVΔGL when propagated on complementing cells in vitro, reaching a viral titer similar to first generation RVΔG rabies.…”

Third-generation rabies viral vectors have low toxicity and improved efficiency as retrograde labeling tools