Neuroscience

How individual vigor shapes human-human physical interaction

1. Dorian Verdel
2. Bastien Berret
3. Etienne Burdet

• Curated by eLife

  eLife Assessment

  This is an important study showing that movement vigor is not solely an individual property but emerges through interaction when two people are physically linked. The evidence is convincing, supported by a well-controlled experimental design and modeling that closely match the observed behavior. While the authors provided a helpful comparison of several candidate models of human-human interaction dynamics, the statistical power remains limited.

Reviewed by eLife

Capturing instantaneous neural signal-behavior relationships with concurrent functional mixed models

1. Al W Xin
2. Erjia Cui
3. Francisco Pereira
4. Gabriel Loewinger

• Curated by eLife

  eLife Assessment

  This valuable work extends a previously published regression framework for trial-aligned photometry data incorporating functional variables. However, the evidence is generally incomplete, due to the way that within-trial changes in variables have been incorporated into an inherently cross-trial analysis framework, which will limit general adoption. The ideas in this work will be of interest to researchers analyzing photometry signals.

Reviewed by eLife

Graded Hair Cell Ablation Reveals Functional Redundancy in the Mature Mouse Vestibular System

1. Tian Wang
2. Davood K. Hosseini
3. Ahmad Mahhoudi
4. Zahra N. Sayyid
5. Jun He
6. Caroline Sit
7. Zelma G. Iriarte Oporto
8. Hong Zhu
9. Wu Zhou
10. Alan G. Cheng

Reviewed by Review Commons

Transcriptional responses to chronic oxidative stress require cholinergic activation of G-protein-coupled receptor signaling

1. Kasturi Biswas
2. Caroline Moore
3. Hannah Rogers
4. Khursheed A Wani
5. Arjamand Mushtaq
6. Read Pukkila-Worley
7. Daniel P Higgins
8. Amy K Walker
9. Gregory P Mullen
10. James B Rand
11. Michael M Francis

• Curated by eLife

  eLife Assessment

  This valuable study advances our understanding of how organisms respond to chronic oxidative stress. Using the nematode C. elegans, the authors identified key neuronal signaling molecules and their receptors that are required for stress signaling and survival. The evidence supporting the conclusions is solid, including rigorous genetics, stress response analysis, and transcriptional profiling. This research will be of broad interest to neuroscientists and researchers working in the field of oxidative stress regulation.

Reviewed by eLife

Continuous flashing suppression of neural responses and population orientation coding in macaque V1

1. Cai-Xia Chen
2. Xin Wang
3. Dan-Qing Jiang
4. Shi-Ming Tang
5. Cong Yu

• Curated by eLife

  eLife Assessment

  This important study shows that orientation tuning of V1 neurons is suppressed during a continuous flash suppression paradigm, especially in neurons with binocular receptive fields. These findings, made using cutting-edge imaging techniques, convincingly implicate early visual processing in continuous flash suppression, in agreement with previous studies suggesting reduced effective contrast of such stimuli in V1.

Reviewed by eLife

Economic and Social Modulations of Innate Decision-Making in Mice Exposed to Visual Threats

1. Zhe Li
2. Jiahui Wang
3. Yidan Sun
4. Jialin Li
5. Ling-yun Li
6. Ya-tang Li

• Curated by eLife

  eLife Assessment

  The authors show that innate defensive behavior in mice is shaped by threat intensity, reward value, and social hierarchy, highlighting how value and social context influence instinctive decisions. The authors provide a valuable characterization of escape behavior which approximates naturalistic conditions. The evidence is incomplete due to indirect measures of vigilance and somewhat misleading characterizations of the looming stimulus.

Reviewed by eLife

Increased reluctant vesicles underlie synaptic depression by GPR55 in axon terminals of cerebellar Purkinje cells

1. Takuma Inoshita
2. Shin-ya Kawaguchi

• Curated by eLife

  eLife Assessment

  This is an important study reporting that activation of the presynaptic GPR55 receptor suppresses synaptic transmission by modulating GABA release through the reduction of the readily releasable pool without affecting the presynaptic AP waveform and calcium influx. The evidence supporting this claim is compelling and based on an impressive array of techniques including patch-clamp recordings from the axon terminals of cerebellar Purkinje cells and fluorescent imaging of vesicular exocytosis. While the authors have strengthened their conclusions on several technical fronts in the revised version, further investigation is needed into the mechanism by which GPR55 activation might make vesicles insensitive to the rise in presynaptic [Ca²⁺] mediated by VGCCs, and the nature of the endogenous process that would activate this pathway in vivo.

Reviewed by eLife

Translational control in the spinal cord regulates gene expression and pain hypersensitivity in the chronic phase of neuropathic pain

1. Kevin C Lister
2. Calvin Wong
3. Sonali Uttam
4. Marc Parisien
5. Patricia Stecum
6. Nicole Brown
7. Weihua Cai
8. David Ho-Tieng
9. Mehdi Hooshmandi
10. Ning Gu
11. Mehdi Amiri
12. Francis Beaudry
13. Seyed Mehdi Jafarnejad
14. Diana Tavares-Ferreira
15. Nikhil Nageshwar Inturi
16. Khadijah Mazhar
17. Hien T Zhao
18. Bethany Fitzsimmons
19. Christos G Gkogkas
20. Nahum Sonenberg
21. Theodore J Price
22. Luda Diatchenko
23. Yaser Atlasi
24. Jeffrey S Mogil
25. Arkady Khoutorsky

• Curated by eLife

  eLife Assessment

  Using a combination of innovative and robust techniques, this study outlines cell-type-specific translational landscape changes that occur in the spinal cord neurons in the early and late phases of nerve injury. The authors provided compelling evidence suggesting an essential role of protein synthesis regulation in the chronic phase of neuropathic pain. Although additional mechanisms contributing to late-phase neuropathic pain beyond altered PV+ neuron excitability remain to be elucidated, this is a fundamental and significant study toward a comprehensive understanding of the molecular pathways involved in neuropathic pain.

Reviewed by eLife

Continuous partitioning of neuronal variability

1. Anuththara Rupasinghe
2. Adam S Charles
3. Jonathan W Pillow

• Curated by eLife

  eLife Assessment

  This work of fundamental significance introduces a novel statistical model of spiking activity that incorporates continuous-time gain modulation. The authors provide exceptional evidence that the model outperforms earlier approaches and alternative candidates in capturing spiking responses across multiple visual areas in the macaque. Beyond its methodological contribution, the study offers new insights into how stimulus-driven variability and internally generated gain fluctuations evolve over time and between brain areas. The framework is likely to find broad application beyond the datasets examined here.

Reviewed by eLife

Individual Taste Preferences Predict Cortical Taste Dynamics but Are Modified by Experience

1. Kathleen C Maigler
2. Jian-You Lin
3. Ethan Crouse
4. Bradly T Stone
5. Ainsley E Craddock
6. Donald B Katz

• Curated by eLife

  eLife Assessment

  This valuable study demonstrates how individual taste preferences shift over time, how these changes relate to cortical activity, and how experience reshapes both. The evidence is largely solid, although additional analyses are needed to strengthen some of the conclusions. The results should be of interest to neuroscientists studying sensory physiology.

Reviewed by eLife