Growth Hormone Effects on Hypoxia-Induced Neuroinflammation in the Developing Cerebellum
Rosario Baltazar-Lara, Martha Carranza, Carlos G. Martínez-Moreno, José Ávila-Mendoza, Carlos Arámburo, Maricela Luna

TL;DR
Growth hormone reduces inflammation and brain damage in newborn rats after oxygen deprivation, improving adult behavior.
Contribution
Growth hormone's biphasic effect on neuroinflammation and its therapeutic potential after neonatal hypoxia are demonstrated.
Findings
Neonatal hypoxia causes long-term cerebellar inflammation and behavioral impairments.
Growth hormone initially promotes inflammation but later reduces it and supports cell survival.
Growth hormone improves motor coordination and anxiety-like behaviors in adulthood.
Abstract
The central nervous system is highly vulnerable to oxygen deprivation during the neonatal period, leading to long-term neurological damage. Growth hormone (GH) has shown neuroprotective and neuroregenerative effects in response to hypoxic injury. This study investigated GH effects on cell survival, inflammatory, and glial activation markers in the developing cerebellum, as well as its impact on motor coordination and anxiety-like behaviors in adulthood following neonatal hypoxia. Global hypoxia was induced in postnatal day 2 Wistar rats (8% O2, 2 h), followed by subcutaneous GH treatment (0.1 mg/kg/d) for five days. Neonatal hypoxia triggered a sustained inflammatory response in the developing cerebellum, with increased expression of TLR-4, IL-1β, TNF-α, IL-6, COX-2, iNOS, and pNF-κB, persistent gliosis, myelin disruption, and Purkinje cell loss, leading to impaired adult behavior. GH…
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Taxonomy
TopicsNeonatal and fetal brain pathology · Anesthesia and Neurotoxicity Research · Growth Hormone and Insulin-like Growth Factors
