Page 2 of 18                               Borniger. J Cancer Metastasis Treat 2019;5:23  I  http://dx.doi.org/10.20517/2394-4722.2018.107



































               Figure 1. A simplified schematic of reciprocal tumor-host interactions. Tumors promote aberrant physiology via alterations to the immune
               system and secretion of metabolic “waste” which contributes to further inflammation and altered function of distal organs, including
               the brain. Feedback from the brain (neural or humoral) can subsequently exacerbate tumor-associated immune and metabolic changes,
               ultimately facilitating tumor growth, angiogenesis, metastasis, or cancer-associated co-morbidities

                                                     [1-5]
               of poor prognoses and reduced quality of life . Tumors are capable of altering local macronutrient contents
               that modulate infiltrating immune cell function resulting in aberrant inflammation. Additionally, they secrete
               metabolic “waste”, which can promote inflammation and alter the function of distal organs and tissues such
               as the liver and brain [6-10] . As evidence accumulates, we are learning that many of these cancer-associated
               co-morbidities are (at least in part) due to deregulation of normal brain function by the cancer itself, cancer
               treatment(s), or other factors.

               Reciprocally, the host system can influence tumor growth and metastasis via immune, endocrine, and neural
               pathways. For example, chronic stress, which results in dysregulation of glucocorticoid and adrenergic
               signaling, exacerbates tumor growth and angiogenesis [11,12] . Additionally, chronic sleep fragmentation,
                                                                                            [13]
               resulting in top-down impairments to the immune system, further promotes tumor growth . The objective
               of this review is to provide an up-to-date overview of cancer as a systemic disease from a basic science
               perspective [Figure 1]. Special focus will be given to subcortical neural populations that are sensitive to
               signals arriving from peripheral tissues and the environment, as well as those that send long-range projections
               to modulate immune or metabolic function, ultimately facilitating cancer growth and/or metastasis.
               Through understanding these brain-tumor interactions, potential undescribed drug or lifestyle targets will
               be uncovered. Additionally, these studies would open up space for existing therapies to be repurposed for
               effective cancer treatment (as is the case with the anti-obesity drug Metformin [14,15] .


               NEURAL CIRCUITRY DEREGULATED IN CANCER
               Sleep disruption
               Disruption of sleep and/or circadian rhythms in physiology and behavior are frequently observed in cancer
               patients. Indeed, 35%-80% of cancer patients report poor sleep quality [16,17] , as compared to 29%-32% of
               the general population  [Table 1]. These problems may stem from the cancer itself, the stress or stigma
                                   [18]