Lactobacillus mali APS1, a potential probiotic strain isolated from sugar kefir grains, has been proven its functionalities about immune-regulation, anti-colitis, and anti-obesity. Live probiotics with certain amount of number are essential for healthy beneficial. However, probiotics encounter critical environmental stress such as cold, heat, acid and bile salts, which dramatically decrease the survival and functionality of probiotics. Therefore, bacteria evolve a system defensing to help them adapting to lethal or sublethal condition. Thus, the objective of this study was to investigate the adaptive responses and viability of L. mali APS1 to various environmental stresses, such as cold, heat, acid, and bile salts. The stress susceptibility results showed that the sublethal and lethal condition of acid, bile salt, heat and cold for L. mali APS1 were 10°C and -20°C, 42°C and 52°C, pH 3.5 and pH 2.0, and 0.1% and 2%, respectively. The subsequent lethal challenge survival results showed that sublethal adaptation of L. mali APS1 to cold, heat and bile salts could induce homologous tolerance. Adaptation to cold and bile provided cross-protection against heat challenge (52°C). Adaptation to cold and heat improved the resistance to bile salt stress (2%). Adaptation to acid and bile increased survival of L. mali APS1 under cold lethal challenge. Besides, after freeze drying, survival of cold and acid adapted cells was significantly higher than heat and bile adapted cells (p < 0.05). Exopolysaccharides production of all stress-adapted and non-adapted cells have no significant difference (p > 0.05). Adapted cells with higher survival were observed minor cell damage after subsequent lethal challenge by scaning electron microscopy (SEM). For proteomics analysis, no significant difference was observed in Mini SDS-PAGE results, but signal change was detected from matrix-assisted laser desorption/ionization time-of-flight mass spectrometer(MALDI-TOF MS) between adapted and non-adapted cells and further grouped by principle component analysis (PCA). In conclusion, this study revealed that sublethal adaptation could be a possible strategy to improve survival of L. mali APS1 in lethal stress condition. Besides, according to morphological and proteomics analysis results, it was found that some adaptive response could be induced to maintain survival and integrity of adapted L. mali APS1.