1. Frequent Low-Dose Δ9-Tetrahydrocannabinol in Adolescence Disrupts Microglia Homeostasis and Disables Responses to Microbial Infection and Social Stress in Young Adulthood
- Author
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Lee, Hye-Lim, Jung, Kwang-Mook, Fotio, Yannick, Squire, Erica, Palese, Francesca, Lin, Lin, Torrens, Alexa, Ahmed, Faizy, Mabou Tagne, Alex, Ramirez, Jade, Su, Shiqi, Wong, Christina Renee, Jung, Daniel Hojin, Scarfone, Vanessa M, Nguyen, Pauline U, Wood, Marcelo, Green, Kim, and Piomelli, Daniele
- Subjects
Biological Psychology ,Pharmacology and Pharmaceutical Sciences ,Biomedical and Clinical Sciences ,Psychology ,Behavioral and Social Science ,Neurosciences ,Pediatric ,Substance Misuse ,Drug Abuse (NIDA only) ,Mental Health ,Aetiology ,2.1 Biological and endogenous factors ,Good Health and Well Being ,Animals ,Female ,Male ,Mice ,Dronabinol ,Microglia ,Lipopolysaccharides ,Gonadal Steroid Hormones ,Stress ,Psychological ,Homeostasis ,Adolescence ,Endocannabinoid ,Immune response ,Social stress ,Δ(9)-tetrahydrocannabinol ,Biological Sciences ,Medical and Health Sciences ,Psychology and Cognitive Sciences ,Psychiatry ,Biological sciences ,Biomedical and clinical sciences - Abstract
BackgroundDuring adolescence, microglia are actively involved in neocortical maturation while concomitantly undergoing profound phenotypic changes. Because the teenage years are also a time of experimentation with cannabis, we evaluated whether adolescent exposure to the drug's psychotropic constituent, Δ9-tetrahydrocannabinol (THC), might persistently alter microglia function.MethodsWe administered THC (5 mg/kg, intraperitoneal) once daily to male and female mice from postnatal day (PND) 30 to PND44 and examined the transcriptome of purified microglia in adult animals (PND70 and PND120) under baseline conditions or following either of two interventions known to recruit microglia: lipopolysaccharide injection and repeated social defeat. We used high-dimensional mass cytometry by time-of-flight to map brain immune cell populations after lipopolysaccharide challenge.ResultsAdolescent THC exposure produced in mice of both sexes a state of microglial dyshomeostasis that persisted until young adulthood (PND70) but receded with further aging (PND120). Key features of this state included broad alterations in genes involved in microglia homeostasis and innate immunity along with marked impairments in the responses to lipopolysaccharide- and repeated social defeat-induced psychosocial stress. The endocannabinoid system was also dysfunctional. The effects of THC were prevented by coadministration of either a global CB1 receptor inverse agonist or a peripheral CB1 neutral antagonist and were not replicated when THC was administered in young adulthood (PND70-84).ConclusionsDaily low-intensity CB1 receptor activation by THC during adolescence may disable critical functions served by microglia until young adulthood with potentially wide-ranging consequences for brain and mental health.
- Published
- 2022