Unraveling the Role of Discrete Areas of the Rat Brain in the Regulation of Ovulation through Reversible Inactivation by Tetrodotoxin Microinjections
| Autor: | Montserrat Bolaños-Hurtado, María-Esther Cruz, Angélica Flores, Isabel Arrieta-Cruz, Roberto Domínguez, Cinthia Juárez-Tapia, Carlos-Camilo Silva |
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| Rok vydání: | 2020 |
| Předmět: |
Ovulation
Microinjections General Chemical Engineering media_common.quotation_subject Estrous Cycle Tetrodotoxin Biology Neuroendocrinology General Biochemistry Genetics and Molecular Biology Lesion chemistry.chemical_compound medicine Animals Microinjection media_common Estrous cycle General Immunology and Microbiology General Neuroscience Brain Rats chemistry Female medicine.symptom Neuroscience Hormone |
| Zdroj: | Journal of Visualized Experiments. |
| ISSN: | 1940-087X |
| DOI: | 10.3791/61493 |
| Popis: | Many experimental approaches have been used for studying the role of the brain in the regulation of ovulation. Examples include the lesion and deafferentation of neuronal groups, which are both invasive methods that permanently impair the integrity of the target area. These methods are accompanied by collateral effects that can affect the analysis of acute and temporal regulatory mechanisms. The stereotaxic implantation of guide cannulas aimed at specific brain regions, followed by a recovery period, allows researchers to microinject different drugs after the disappearance of the undesired effects of the surgery. Tetrodotoxin has been used to determine the roles of several brain areas in diverse physiological processes because it transiently inhibits the sodium-dependent action potentials, thus blocking all neural activity in the target region. This protocol combines this method with strategies for the assessment of the estrous cycle and ovulation to reveal the role of discrete brain regions in the regulation of ovulation at particular times of any given stage of the estrous cycle. Awake and unrestrained rats (Rattus norvegicus) were used to avoid the blocking effects that anesthetics and stress hormones exert on ovulation. This protocol can be easily adapted to other species, brain targets and pharmacological agents to study different physiological processes. Future improvements to this method include the design of a microinjection system using glass capillaries of small diameter instead of guide cannulas. This will reduce the amount of tissue damaged during the implantation and decrease the spread of the infused drugs outside the target area. |
| Databáze: | OpenAIRE |
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