المفاهيم الأساسية
An optimized retrograde monosynaptic viral tracing system enables efficient mapping of neural circuits in the larval zebrafish brain.
الملخص
The authors developed an efficient and applicable retrograde monosynaptic viral tracing system using the EnvA-pseudotyped glycoprotein (G)-deleted rabies virus (RVdG[EnvA]) in larval zebrafish.
Key highlights:
- Transient co-expression of helper proteins TVA and rabies G in specific neurons via one-cell-stage microinjection of GAL4-UAS plasmids enabled RVdG[EnvA] to infect and spread from targeted starter cells.
- Iterative testing of virus strain, G protein type, G expression level, and rearing temperature identified an optimal combination of CVSdG trans-complemented with advanced expression of N2cG at 36°C, yielding up to 20 inputs per starter cell.
- The low cytotoxicity of the optimal conditions enabled viable labeling and calcium imaging of infected neurons up to 10 days post-infection, spanning larval ages commonly used for functional studies.
- A Cre-dependent transgenic reporter framework was developed to enable input cell-type-specific tracing and circuit reconstruction based on single-neuron morphology.
- Application of the method revealed the ipsilateral preference and subtype specificity of granule cell-to-Purkinje cell connections in the larval zebrafish cerebellum.
The authors' optimized viral tracing system provides an efficient tool for dissecting neural circuits in the larval zebrafish brain.
الإحصائيات
The tracing efficiency, measured by the convergence index (CI), was up to 20 for neurons under the optimal conditions of CVSdG trans-complemented with advanced expression of N2cG at 36°C.
The survival rate of larvae infected with CVSdG was significantly higher than those infected with SADdG at 36°C (75% ± 3% vs 52% ± 7%).
The lifetime of starter cells infected by CVSdG was longer than those infected by SADdG (10.0 ± 0 days vs 7.5 ± 0.48 days).
اقتباسات
"We discovered an optimal combinatory condition: CVSdG trans-complemented with advanced expression of N2cG at 36°C. The optimality lies in the high tracing efficiency and low cytotoxicity, embodied by a 20-fold increase in efficiency compared to previous studies in zebrafish and a long enough time window (final fish age up to 2 - 3 weeks old) for conducting functional studies in larval zebrafish."
"Consistently, in zebrafish larvae, we found that neurons infected with CVS-N2c displayed lower fluorescence intensity and longer survival times compared to those infected with SAD-B19."
"Importantly, in line with previous reports, we did not observe any noteworthy increase in mortality or behavioral abnormalities among zebrafish larvae exposed to elevated temperatures."