The nuclear factor erythroid 2–related factor 2 (Nrf2) pathway is

The nuclear factor erythroid 2–related factor 2 (Nrf2) pathway is the primary transcriptional regulator of the cellular antioxidant response and is increasingly implicated in longevity and protection from inflammation. Declining Nrf2 activity may also be involved in selleck the deleterious neurocognitive decline associated with aging [8], [9] and [10]. The broccoli-derived bioactive sulforaphane (SFN) elicits activation of

the Nrf2 antioxidant pathway, which protects tissues from toxic and carcinogenic insult by promoting transcription of genes containing the antioxidant response element (ARE) [11], [12] and [13]. Because of the cytoprotective nature of Nrf2, activation of the Nrf2 pathway may be a good therapeutic target

for reducing oxidative and immune stress associated with chronic low-grade inflammation. In addition to evoking a Nrf2-dependent antioxidant response, SFN also displays anti-inflammatory effects Belnacasan molecular weight in vitro, which generates further interest in SFN and foods rich in SFN as potential therapeutic candidates for chronic inflammatory diseases [14] and [15]. As highlighted in a recent review article, the beneficial effects of SFN have also been demonstrated in a number of experimental animal models, with evidence strongly suggesting that SFN is a versatile treatment for inflammation and oxidative stress [16]. Significant advances have been made in understanding the biochemical mechanisms underlying SFN-mediated activation of Nrf2 and its physiological effects, but minimal research has examined whether whole broccoli consumption influences age-associated inflammation.

Broccoli provides a rich dietary source of vitamins, minerals, and flavonoids, Selleckchem Fludarabine but the unique nature of its health-promoting benefits, including cancer prevention and increased endogenous antioxidant production, has been associated with its naturally high levels of glucoraphanin [17], [18] and [19]. Glucoraphanin is enzymatically hydrolyzed to the bioactive isothiocyanate SFN during crushing, chewing, or digestion of broccoli. Frequent intake of broccoli is associated with lowered risk of cancer and elevation of antioxidant enzymes [20] and [21]. Therefore, clinical research involving dietary supplementation with broccoli has focused primarily on chemoprevention and detoxification through activation of phase II enzymes. Despite the accumulating evidence that SFN reduces inflammatory markers in cell culture and protects against oxidative stress during brain injury in vivo, the effects of dietary broccoli on peripheral and central inflammation in adult and aged animals have not been thoroughly investigated. Our objective was to examine whether dietary broccoli reduces LPS-induced inflammatory markers in brain or liver of aged mice, and whether dietary broccoli could alter the sickness behavior response to LPS.

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