In non-hepatic cells, scavenger receptor class B type I (SR-BI), cluster of differentiation 36 (CD36), and caveolin-1 were described as mediators of cholesterol efflux, the first step of reverse cholesterol transport (RCT). Stable transformants of HepG2 cells overexpressing SR-BI, CD36, or caveolin-1 were generated, as well as cells overexpressing both caveolin-1 and SR-BI or caveolin-1 and CD36 in order to address the effect of caveolin-1 on both receptor activities. These cells were analyzed for their ability to efflux cholesterol to HDL(3). Our results show that overexpressing SR-BI, CD36, or caveolin-1 increases cholesterol efflux by 106, 92, and 48%, respectively. Moreover, the dual overexpressions of caveolin-1 and SR-BI or caveolin-1 and CD36 lead to a more prominent increase in cholesterol efflux. Studies were also conducted with primary cultures of SR-BI knockout (KO), CD36 KO, and SR-BI/CD36 double-KO (dKO) mice. SR-BI KO and SR-BI/CD36 dKO hepatic cells show 41 and 56% less cholesterol efflux, respectively, than normal hepatic cells. No significant difference was observed between the efflux of normal and CD36 KO cells. The difference between the role of human and murine CD36 correlated with the absence of CD36 dimers in mouse caveolae/rafts. Overall, our results show that SR-BI is clearly involved in cholesterol efflux in mouse and human hepatic cells, while CD36 plays a significant role in human cells.
Fucoxanthin (FX), a primary carotenoid, is associated with the fucoxanthin-chlorophyll a/c binding protein (FCP) complex integrated into the thylakoid membrane (TM) which functions as a light-harvesting complex in the diatom Phaeodactylum tricornutum. Here, we aimed to elucidate the FX production regulated by different light intensities via the correlation of FX biosynthesis and apoproteins composing of FCP complex. High light (HL) accelerated P. tricornutum growth more than low light (LL). The maximum values of FX content and productivity obtained under LL (1.7 mg g−1 and 2.12 mg L−1 day−1, respectively) were substantially higher than those obtained under HL (0.54 mg g−1 and 0.79 mg L−1 day−1, respectively). Notably, proteome and photosynthetic pigment analyses revealed the enrichment of FCP antennae in the LL culture TM fractions but not the HL culture. Semi-quantification of FCP antenna protein using LC–MS/MS and RNA transcriptome analyses revealed that PtLhcf5 and PtLhcf8 played crucial roles in FCP biosynthesis under LL. P. tricornutum cultured under light transition exhibited FCP formation only in the early growth stage to meet the increased photosynthetic activity requirements under LL. Meanwhile, FCP degradation could be triggered by HL throughout the cultivation period. Therefore, FX production was highly correlated with FCP formation, and LL conditions in the early growth stage were critical for higher FX productivity.
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