Transient expansion of the expression region of <i>Hsd11b1</i>, encoding 11β‐hydroxysteroid dehydrogenase type 1, in the developing mouse neocortex

BackgroundMyocardial infarction (MI) is one of the most common cardiac problems causing deaths in humans. Previously validated anesthetic agents used in MI model establishment are currently controversial with severe restrictions because of ethical concerns. The combination between medetomidine, midazolam, and butorphanol (MMB) is commonly used in different animal models. The possibility of MMB combination to establish the MI model in rats did not study yet which is difficult because of severe respiratory depression and delayed recovery post-surgery, resulting in significant deaths. Atipamezole is used to counter the cardiopulmonary suppressive effect of MMB.ObjectivesThe aim of the present study is to establish MI model in rats using a novel anesthetic combination between MMB and Atipamezole.Materials and methodsTwenty-five Sprague Dawley (SD) rats were included. Rats were prepared for induction of the Myocardial infarction (MI) model through thoracotomy. Anesthesia was initially induced with a mixture of MMB (0.3/5.0/5.0 mg/kg/SC), respectively. After endotracheal intubation, rats were maintained with isoflurane 1% which gradually reduced after chest closing. MI was induced through the left anterior descending (LAD) artery ligation technique. Atipamezole was administered after finishing all surgical procedures at a dose rate of 1.0 mg/kg/SC. Cardiac function parameters were evaluated using ECG (before and after atipamezole administration) and transthoracic echocardiography (before and 1 month after MI induction) to confirm the successful model. The induction time, operation time, and recovery time were calculated. The success rate of the MI model was also calculated.ResultsMI was successfully established with the mentioned anesthetic protocol through the LAD ligation technique and confirmed through changes in ECG and echocardiographic parameters after MI. ECG data was improved after atipamezole administration through a significant increase in heart rate (HR), PR Interval, QRS Interval, and QT correction (QTc) and a significant reduction in RR Interval. Atipamezole enables rats to recover voluntary respiratory movement (VRM), wakefulness, movement, and posture within a very short time after administration. Echocardiographic ally, MI rats showed a significant decrease in the left ventricular wall thickness, EF, FS, and increased left ventricular diastolic and systolic internal diameter. In addition, induction time (3.440 ± 1.044), operation time (29.40 ± 3.663), partial recovery time (10.84 ± 3.313), and complete recovery time (12.36 ± 4.847) were relatively short. Moreover, the success rate of the anesthetic protocol was 100%, and all rats were maintained for 1 month after surgery with a survival rate of 88%.ConclusionOur protocol produced a more easy anesthetic effect and time-saving procedures with a highly successful rate in MI rats. Subcutaneous injection of Atipamezole efficiently counters the cardiopulmonary side effect of MMB which is necessary for rapid recovery and subsequently enhancing the survival rate during the creation of the MI model in rats.

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“…Regarding the anesthetic combination, the used MMB mixture has been created based on previous reports in rats and mice (23,24,(36)(37)(38)(39).…”

Section: Discussionmentioning

confidence: 99%

Novel protocol to establish the myocardial infarction model in rats using a combination of medetomidine-midazolam-butorphanol (MMB) and atipamezole

et al. 2022

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“…Therefore, fetuses are exposed to high concentrations of cortisol, resulting in developmental delays and NDDs ( 28 , 30 ). In rodents, exposure to high concentrations of stress-related hormone in early life stages decreases the expression of Hsd11b1 , which encodes a stress-related hormone activity regulator enzyme in the neocortex ( 31 ).…”

Section: Maternal Immune Activationmentioning

confidence: 99%

Prenatal Environment and Neurodevelopmental Disorders

2022

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The internal and external environment of the mother during the developmental stages of the fetus affects the offspring’s health. According to the developmental origins of health and disease (DOHaD) theory, environmental factors influence the offspring and also affect health in adulthood. Recently, studies based on this theory have gained attracted attention because of their clinical utility in identifying the risk groups for various diseases. Neurodevelopmental disorders (NDDs) such as autism spectrum disorder (ASD) and attention-deficit hyperactivity disorder (ADHD) can be caused by exposure to certain prenatal environments during pregnancy. This review describes the latest findings on the effect of prenatal environment on the onset mechanism of NDDs based on the DOHaD theory. Unravelling the molecular mechanisms underlying the pathogenesis of NDDs is important, because there are no therapeutic drugs for these disorders. Furthermore, elucidating the relationship between the DOHaD theory and NDDs will contribute to the popularization of preventive medicine.

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Dysregulated HPA axis during postnatal developmental stages in the BTBRT⁺ Itpr3^tf/J mouse: A model of autism spectrum disorder

Endo,

Hiraishi,

Goto

et al. 2024

Neuropsychopharm Rep

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Autism spectrum disorder (ASD) is a neurodevelopmental disorder. Some children with ASD show enhanced cortisol response to stress. BTBR T+ Itpr3tf/J (BTBR) mice, an ASD model, display behavior consistent with the three diagnostic categories of ASD and exhibit an exaggerated response to stress in adulthood. However, it remains unclear how basal corticosterone levels change and how the hypothalamic–pituitary–adrenal axis responds to stress during the early life stages in BTBR mice. In this study, we found that basal corticosterone levels showed characteristic changes, peaking at weaning during postnatal development in both BTBR and control C57BL/6J (B6J) mice. Furthermore, we observed higher corticosterone and corticotropin‐releasing hormone levels in BTBR mice than in B6J mice following acute stress exposure during weaning; however, adrenocorticotropic hormone levels were lower in BTBR mice. Glucocorticoid receptor mRNA expression levels in the hippocampus and lateral septum after stress were higher in BTBR mice than in B6J mice. This study documented changes in corticosterone levels at baseline during postnatal development in mice and showed that BTBR mice exhibited disrupted stress responses at weaning.

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Transient expansion of the expression region of Hsd11b1, encoding 11β‐hydroxysteroid dehydrogenase type 1, in the developing mouse neocortex

Cited by 3 publications

References 27 publications

Novel protocol to establish the myocardial infarction model in rats using a combination of medetomidine-midazolam-butorphanol (MMB) and atipamezole

Novel protocol to establish the myocardial infarction model in rats using a combination of medetomidine-midazolam-butorphanol (MMB) and atipamezole

Prenatal Environment and Neurodevelopmental Disorders

Dysregulated HPA axis during postnatal developmental stages in the BTBRT⁺ Itpr3^tf/J mouse: A model of autism spectrum disorder

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Transient expansion of the expression region of Hsd11b1, encoding 11β‐hydroxysteroid dehydrogenase type 1, in the developing mouse neocortex

Cited by 3 publications

References 27 publications

Novel protocol to establish the myocardial infarction model in rats using a combination of medetomidine-midazolam-butorphanol (MMB) and atipamezole

Novel protocol to establish the myocardial infarction model in rats using a combination of medetomidine-midazolam-butorphanol (MMB) and atipamezole

Prenatal Environment and Neurodevelopmental Disorders

Dysregulated HPA axis during postnatal developmental stages in the BTBRT+ Itpr3tf/J mouse: A model of autism spectrum disorder

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Product

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Dysregulated HPA axis during postnatal developmental stages in the BTBRT⁺ Itpr3^tf/J mouse: A model of autism spectrum disorder