Modulation of anti-tumor immunity by the brain's reward system.
Tamar L Ben-ShaananMaya SchillerHilla Azulay-DebbyBen KorinNadia BoshnakTamar KorenMaria KrotJivan ShakyaMichal A RahatFahed HakimAsya RollsPublished in: Nature communications (2018)
Regulating immunity is a leading target for cancer therapy. Here, we show that the anti-tumor immune response can be modulated by the brain's reward system, a key circuitry in emotional processes. Activation of the reward system in tumor-bearing mice (Lewis lung carcinoma (LLC) and B16 melanoma) using chemogenetics (DREADDs), resulted in reduced tumor weight. This effect was mediated via the sympathetic nervous system (SNS), manifested by an attenuated noradrenergic input to a major immunological site, the bone marrow. Myeloid derived suppressor cells (MDSCs), which develop in the bone marrow, became less immunosuppressive following reward system activation. By depleting or adoptively transferring the MDSCs, we demonstrated that these cells are both necessary and sufficient to mediate reward system effects on tumor growth. Given the central role of the reward system in positive emotions, these findings introduce a physiological mechanism whereby the patient's psychological state can impact anti-tumor immunity and cancer progression.
Keyphrases
- bone marrow
- induced apoptosis
- immune response
- prefrontal cortex
- cancer therapy
- cell cycle arrest
- mesenchymal stem cells
- body mass index
- physical activity
- squamous cell carcinoma
- resting state
- multiple sclerosis
- young adults
- endoplasmic reticulum stress
- case report
- oxidative stress
- papillary thyroid
- metabolic syndrome
- drug delivery
- adipose tissue
- cerebral ischemia
- skeletal muscle
- blood brain barrier
- weight gain
- subarachnoid hemorrhage
- wild type
- childhood cancer