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Functional Impact of nTS Glutamate Stress on Respiration in an Alzheimer’s Disease Model

谷氨酸受体 神经科学 疾病 呼吸 阿尔茨海默病 美金刚 医学 心理学 内科学 受体 痴呆 解剖
作者
Sarah Carter,Robert K. Tipton,Cassadi M. Forman,Adison Mosher,Daniela Ostrowski,Tim D. Ostrowski
出处
期刊:Physiology [American Physiological Society]
卷期号:39 (S1)
标识
DOI:10.1152/physiol.2024.39.s1.1248
摘要

Alzheimer’s disease (AD) is closely associated with obstructive sleep apnea (OSA). Such hypoxic insults trigger glutamate release of chemoafferents into the nucleus tractus solitarii (nTS), an important upstream center of the chemoreflex. Potential alterations of glutamate handling in the nTS may lead to the respiratory dysfunction seen in AD patients. Using the streptozotocin (STZ)-induced rat model — an effective proxy for human AD — we studied the functional consequences of nTS glutamate stress on respiration. STZ-AD was induced in 6-week-old male Sprague Dawley rats via intracerebroventricular injections of 2 - 2.25 mg/kg STZ. After two weeks, EMG recordings of diaphragm activity served as surrogate for respiratory responses to glutamate microinjections (20 nL of 40 mM) into the caudal nTS. In a subset of rats, chemoafferent terminals were labeled with the fluorescent tracer DiI to permit patch clamp recordings of identified 2nd order nTS neurons participating in the chemoreflex loop. Evoked glutamatergic excitatory postsynaptic currents (TS-EPSCs) were generated via tractus solitarii stimulation at frequencies (10 - 40 Hz) typical for afferent discharge during hypoxia. Acute glutamate injections into the caudal nTS increased respiratory frequency by 15 - 20 breaths per minute. The response magnitude was similar between CTL and STZ-AD animals. Excitatory stress with repeated glutamate injections (5 min. apart) evoked a reliable respiratory response in CTL that slowly declined to ~65% from its maximum over the course of 10 injections. In contrast, the decline of respiratory response in STZ-AD was more pronounced and occurred significantly earlier than in CTL, indicating altered glutamate handling in the caudal nTS of STZ-AD rats. Next, we used patch clamp electrophysiology to analyze increased glutamate release of chemoafferents onto 2nd order nTS neurons. High frequency stimulation of chemoafferents induced a successive depression of TS-EPSC amplitude in nTS neurons. TS-EPSC depression was significantly stronger in STZ-AD and may be due to altered glutamate handling at the synapse. Western Blot analysis of STZ-AD brainstem tissue including the nTS revealed a significant increase in glial fibrillary acidic protein (GFAP) expression and a decrease of excitatory amino acid transporters (EAATs) expression, suggesting astrocyte involvement in compromised nTS glutamate handling in STZ-AD. In summary, the STZ-AD model showed reduced respiratory responses to glutamate stress in the caudal nTS. The altered stress response may come from enhanced depression of TS-EPSC amplitude at nTS neurons in the chemoreflex. Altered astrocytic glutamate removal from the synaptic cleft may contribute to TS-EPSC depression. Together, altered glutamate handling in a respiratory brainstem center may contribute to OSA in AD patients. NIH R15AG065927 (TDO & DO), KCOM Biomedical Graduate Program (RKT &TDO), ATSU Research Support (SKRC). This is the full abstract presented at the American Physiology Summit 2024 meeting and is only available in HTML format. There are no additional versions or additional content available for this abstract. Physiology was not involved in the peer review process.

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