In previous study, the strains CCRC 35396 of A. cinnamomea grew fastest among all the strains in our laboratory, and rich in adenosine. Also the adenosine has been proved that it could prevent cells from serum deprivation-induced apoptosis (Lu, 2006). In this study, strain CCRC 35396 was used to investigate the effects of sulfated-salt stress on the chemical constituents of A. cinnamomea and anti-apoptosis effect. Four fractions, sulfated- polysaccharides(SPS), polysaccharides (PS), ethanolic extracts, and triterpene were analyzed. The PS accumulation was not growth-associated and there was a negative correlation between growth and the yield of NPS. Mycelia were treated with MgSO4 or MnSO4 at the concentrations of 0.025％, 0.05％, 0.1％, 0.25％ and 0.5％. From the results, treatment of MgSO4 in the concentration of 0.025％ & 0.25％ could enhance the mycelial growth. Whereas MnSO4 could inhibit the mycelial growth beyond concentration of 0.025％. The treatment of MnSO4 in the concentration of 0.25％ showed the maximal yield of PS among all the tested concentrations at the value of 8.82 ± 0.79 %. MnSO4 at 0.10％ showed the highest yield of NPS at the value of 39.00 ± 2.24 %. The contents of triterpenoids were all different by series sulfated-salt treatment. The accumulation of triterpenoids were time-dependent without sulfated-salt treatment. The cell protectivity of cell was performed by the MTT test. The result showed that by SPS (30μg/ml) isolated from 0.50% MnSO4 treated mycelia exhibited protectivity significantly in Serum-free test. Meanwhile, in the presence of MPP+1.5mM, all the MnSO4 0.05%、0.10%、0.25% treated mycelia SPS showed the protectivity.