Comparative
Compositional Analysis of Regular and
Decaf Coffees by LC/MS and HPLC and Potential Effects on Inflammatory
Cytokines Produced during Bacterial Infections
posted on 2024-01-19, 21:12authored byJae B. Park, Renee Peters, Quynhchi Pham, Thomas T.Y. Wang
Coffee is a popular beverage consumed worldwide. However,
potential
effects of regular and decaf coffees on the outcomes of bacterial
infections are still unknown. Furthermore, there is little data about
the comparative chemical composition of regular and decaf coffees.
Therefore, in this paper, the chemical compositions of regular (n = 2) and decaf (n = 2) ground coffees
were analyzed by liquid chromatography–mass spectrometry (LC/MS)
and high-performance liquid chromatography (HPLC) methods, and their
potential effects on inflammatory cytokines (IL-6, IL-1beta, IL-8,
and TNF-alpha) produced by bacterial infections were investigated
in lipopolysaccharide (LPS)-treated human peripheral blood mononuclear
cells (PBMCs). In regular and decaf samples (5 g per 250 mL), more
than 600 compounds were detected by LC/MS. In addition, the amounts
of javamide-I/-II (0.4–0.8/1.8–2.4 mg), chlorogenic
acid (16–21 mg), and caffeine (1.7–90 mg) were quantified
in the samples by HPLC. Principal component analysis analysis showed
a difference between regular and decaf samples, but the amount difference
of most compounds was less than twofold. As expected, in LPS-treated
PBMCs, both regular and decaf samples inhibited IL-6, IL-1beta, IL-8,
and TNF-alpha significantly (24 h) (P < 0.05),
suggesting that caffeine may have no significant role in the inhibition.
In addition, the data showed that both regular and decaf samples could
initiate the inhibition at different time points in LPS-treated PBMCs
(P < 0.05), suggesting that coffee may inhibit
these inflammatory cytokines in distinctive time-dependent manners.
Furthermore, javamide-I/-II in both regular and decaf samples were
found to inhibit some cytokines (IL-6, IL-1beta) in LPS-treated PBMCs.
Altogether, the data indicate that the amount variance of most compounds
in regular and decaf coffee may be relatively small, and both regular
and decaf coffee may be equally potent in inhibiting IL-6, IL-1beta,
IL-8, and TNF-alpha, suggesting that health effects of coffee consumption
may be further investigated related to bacterial infections.