Astaxanthin accumulation in Haematococcus pluvialis (Chlorophyceae) as an active photoprotective process under high irradiance

Green cells of Haematococcus pluvialis Flotow accumulate the ketocarotenoid astaxanthin under stress conditions, such as high irradiance, nutrient deficiency, high salinity, and high temperature. Though some photoprotective mechanisms have been suggested, the function of astaxanthin in red cysts is still questioned. We studied the role of astaxanthin in photoprotection by inducing its formation in logarithmically growing cultures by high irradiance, thus avoiding unrelated processes that can occur in H. pluvialis when carotenogenesis is induced by other stresses. On exposure to high irradiance, the green Haematococcus culture turned red as lipid globules loaded with astaxanthin esters were formed and concentrated at the periphery of the cell. During this phase of induction, the photosynthesis rates remained high, but the amount of the D1 protein of PSII was significantly reduced. The decline in D1 protein content stopped after 1 day; the level then increased, returning to normal after 5 days. The response of the D1 protein was indicative of a transitional phase in the acclimation of Haematococcus to high light. The formation and deposition of astaxanthin seemed to prevent further reduction in D1 protein level, thus enabling the cell to maintain PSII function and structural integrity. This result seems to be a clear indication of the light screening by astaxanthin, which absorbs light in the blue region, thus protecting the photosynthetic apparatus. When the cells recovered from the high light stress, the astaxanthin globules concentrated around the nucleus, indicating that the pigment also serves as a physicochemical barrier, protecting the replicating DNA from oxidation as the cells divide.