<em>In Vivo</em> Calcium Imaging of Dorsal Root Ganglia Neurons' Response to Somatic and Visceral Stimuli

Kun Liu; Yun Liu; Xia Li; Shuya Wang; Xiaoxi Wang; Zhiyun Zhang; Xinyan Gao

doi:10.3791/65975

In vivo (İn canlı) Dorsal Kök Gangliyon Nöronlarının Somatik ve Viseral Uyaranlara Yanıt...

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Neuroscience

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JoVE Journal Neuroscience

In Vivo Calcium Imaging of Dorsal Root Ganglia Neurons’ Response to Somatic and Visceral Stimuli

In vivo (İn canlı) Dorsal Kök Gangliyon Nöronlarının Somatik ve Viseral Uyaranlara Yanıtının Kalsiyum Görüntülemesi

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06:06 min

March 1, 2024

DOI: 10.3791/65975-v

Kun Liu*¹, Yun Liu*¹, Xia Li¹, Shuya Wang¹, Xiaoxi Wang¹, Zhiyun Zhang¹, Xinyan Gao¹

¹Institute of Acupuncture and Moxibustion,China Academy of Chinese Medical Sciences

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Overview

This study presents a detailed protocol for in vivo calcium imaging to assess the responses of lumbar-6 dorsal root ganglion (DRG) neurons to somatic and visceral stimuli. The method allows for comparative analysis of neuronal responses to various stimuli, enhancing our understanding of visceral pain mechanisms and the effects of somatic interventions, such as acupuncture.

Key Study Components

Area of Science

Neuroscience
Pain Research
Neuroimaging

Background

Traditional electro recording methods are insufficient for examining sufficient cell numbers in vivo.
The study addresses the challenges in observing the functional roles of DRG neurons in visceral pain contexts.
The approach improves upon previous techniques that primarily focused on L5 DRG neurons.
Technological advancements enable detailed observation of acetylcholine responses related to acupuncture and visceral stimuli.

Purpose of Study

To investigate the responsiveness of lumbar-6 DRG neurons to somatic and visceral stimuli.
To elucidate the mechanisms underlying the analgesic effects of acupuncture.
To develop a reliable protocol for in vivo imaging of DRG neuron activity.

Methods Used

Calcium imaging of in vivo preparations, specifically lumbar-6 DRG neurons.
The model involves tracheostomized mice, which are subjected to surgical exposure of the lumbar DRG.
Real-time imaging captures neuronal responses to somatic and visceral stimuli.
Procedures include electrode placement, stimulation methods, and imaging techniques with confocal microscopy.
Timelapse imaging captures calcium signaling responses to various stimuli.

Main Results

Colorectal distension and electroacupuncture led to rapid increases in GCaMP fluorescence, indicating neuronal activation.
Responses were quantitatively assessed through fluorescence intensity, revealing important insight into neuronal excitability changes.
Heat maps demonstrated the differential responses of neurons to somatic versus visceral stimuli.
Findings inform on the cellular dynamics involved in visceral nociception.

Conclusions

This study confirms the protocol's utility in exploring neuronal responses to acupuncture and visceral pain stimuli.
The imaging method provides a powerful tool for future research on the mechanisms of pain and acupuncture.
The findings enhance understanding of nociceptive signaling, potentially influencing therapeutic strategies for pain management.

Frequently Asked Questions

What are the advantages of the in vivo calcium imaging approach?

This method allows for real-time observation of neuronal activity in response to stimuli, offering insights into the physiology of DRG neuron responses that traditional methods cannot provide.

How is the biological model implemented in the study?

The model involves tracheostomized mice with surgical exposure of lumbar-6 DRG for detailed imaging during somatic and visceral stimulus application.

What types of data are obtained from this protocol?

The protocol captures calcium-based fluorescence intensity changes, providing data on neuronal excitability and responsiveness to various stimuli.

How can the method be adapted for different research needs?

The protocol can be modified for different spinal segments or types of stimuli, enabling broader applications in pain research and neuronal studies.

What are some limitations of this method?

Limitations may include the need for specialized equipment and expertise in surgical procedures, which may not be accessible to all research labs.

What potential implications does this research have for pain management?

Understanding the mechanisms of visceral pain and the effects of acupuncture may lead to the development of new therapeutic strategies for pain relief.

Mevcut protokol, lomber-6 DRG nöron topluluklarının somatik ve viseral uyaranlara tepkilerini ölçmek için in vivo kalsiyum görüntülemeyi ana hatlarıyla belirtir. Farklı uyaranlara yanıt veren nöronlar arasında kapsamlı karşılaştırmalar yapılabilir. Bu protokol, akupunktur gibi viseral ağrı ve somatik stimülasyon mekanizmalarını araştırmak için değerlidir.

Araştırmamız, akupunkturun viseral ağrı üzerindeki analjezik etkilerini anlatan nöronlar ve somatosensoriyel sistem devreleri üzerine odaklanırken, nöro DRG'nin akupunktur uyaranlarına nöron yanıtlarını ayarlamaya çalışmaktadır. Elektro kayıt gibi geleneksel yöntemler, in vivo olarak viseral veya somatik duyarlı nöronları tanımlamak için yeterli hücre sayılarını ve farklı spesifik hücresel bağları verimli bir şekilde inceleyemez. Akupunkturun analjezik etkisinde DRG nöronunun fonksiyonel rollerini incelemek, teknolojik kısıtlamalar nedeniyle zor olmuştur.

Altı numaralı DRG nöronunun in vivo olarak intrakolonik ve akupunktur simülasyonuna olan sorumluluğunu gözlemlemek için genel bir yaklaşım getirdik. Protokol, somatik ve iç organ girdisine yanıt olarak DRG nöronlarının aktivitesini in vivo olarak gözlemleme prosedürlerini ana hatlarıyla belirtir. Bu, yalnızca somatik uyaranlar altında L5 DRG'deki nöron tepkilerini araştırmaya odaklanan önceki çalışmaya göre bir gelişmedir.

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