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. 2021 Jul 1;21(1):183.
doi: 10.1186/s12906-021-03358-3.

Metagenomic and phytochemical analyses of kefir water and its subchronic toxicity study in BALB/c mice

Muganti Rajah Kumar  1 Swee Keong Yeap  2 Nurul Elyani Mohamad  1   3 Janna Ong Abdullah  1 Mas Jaffri Masarudin  1   4 Melati Khalid  3 Adam Thean Chor Leow  1 Noorjahan Banu Alitheen  5   6   7
Affiliations

Metagenomic and phytochemical analyses of kefir water and its subchronic toxicity study in BALB/c mice

Muganti Rajah Kumar et al. BMC Complement Med Ther. .

Abstract

Background: In recent years, researchers are interested in the discovery of active compounds from traditional remedies and natural sources, as they reveal higher therapeutic efficacies and improved toxicological profiles. Among the various traditional treatments that have been widely studied and explored for their potential therapeutic benefits, kefir, a fermented beverage, demonstrates a broad spectrum of pharmacological properties, including antioxidant, anti-inflammation, and healing activities. These health-promoting properties of kefir vary among the kefir cultures found at the different part of the world as different media and culture conditions are used for kefir maintenance and fermentation.

Methods: This study investigated the microbial composition and readily found bioactive compounds in water kefir fermented in Malaysia using 16S rRNA microbiome and UHPLC sequencing approaches. The toxicity effects of the kefir water administration in BALB/c mice were analysed based on the mice survival, body weight index, biochemistry profile, and histopathological changes. The antioxidant activities were evaluated using SOD, FRAP, and NO assays.

Results: The 16S rRNA amplicon sequencing revealed the most abundant species found in the water kefir was Lactobacillus hilgardii followed by Lactobacillus harbinensis, Acetobacter lovaniensis, Lactobacillus satsumensis, Acetobacter tropicalis, Lactobacillus zeae, and Oenococcus oeni. The UHPLC screening showed flavonoid and phenolic acid derivatives as the most important bioactive compounds present in kefir water which has been responsible for its antioxidant activities. Subchronic toxicity study showed no toxicological signs, behavioural changes, or adverse effects by administrating 10 mL/kg/day and 2.5 mL/kg/day kefir water to the mice. Antioxidants assays demonstrated enhanced SOD and FRAP activities and reduced NO level, especially in the brain and kidney samples.

Conclusions: This study will help to intensify the knowledge on the water kefir microbial composition, available phytochemicals and its toxicological and antioxidant effects on BALB/c mice since there are very limited studies on the water kefir grain fermented in Malaysia.

Keywords: 16S rRNA; Antioxidants; Kefir water; Toxicity; UHPLC.

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Conflict of interest statement

The authors declare that they have no competing interests.

Figures

Fig. 1
Fig. 1
The taxonomical tree obtained for kefir grain at the species level. Notes: Different colours represent different taxonomic ranks. The size of circles stands for the relative abundance of species. The first number below the taxonomic name represents the percentage in the whole taxon, while the second number represents the percentage in the selected taxon
Fig. 2
Fig. 2
Histopathology of the liver. a The liver of male BALB/c mice treated orally with water (control), b kefir 10 mL/kg, and c kefir 2.5 mL/kg for 28 days. No sign of toxicity was observed in the liver of these mice (× 10 magnification)
Fig. 3
Fig. 3
Histopathology of the kidney. a The kidney of male BALB/c mice treated orally with water (control), b kefir 10 mL/kg, and c kefir 2.5 mL/kg for 28 days. No sign of toxicity was observed in the kidney of these mice (× 10 magnification)
Fig. 4
Fig. 4
Histopathology of the spleen. a The spleen of male BALB/c mice treated orally with water (control), b kefir 10 mL/kg, and c kefir 2.5 mL/kg for 28 days. No sign of toxicity was observed in the spleen of these mice (× 10 magnification)
Fig. 5
Fig. 5
Histopathology of the brain. a The brain of male BALB/c mice treated orally with water (control), b kefir 10 mL/kg, and c kefir 2.5 mL/kg for 28 days. No sign of toxicity was observed in the brain of these mice (× 10 magnification)
Fig. 6
Fig. 6
Superoxide dismutase level in liver, kidney, spleen and brain samples from untreated and kefir treated groups. Data are presented as means ± SD. Significant difference from the untreated group was determined using one-way ANOVA and indicated by *p < 0.05
Fig. 7
Fig. 7
Ferric reducing ability plasma level in liver, kidney, spleen and brain samples from untreated and kefir treated groups. Data are presented as means ± SD. Significant difference from the untreated group was determined using one-way ANOVA and indicated by *p < 0.05
Fig. 8
Fig. 8
Nitric oxide level in liver, kidney, spleen and brain samples from untreated and kefir treated groups. Data are presented as means ± SD. Significant difference from the untreated group was determined using one-way ANOVA and indicated by *p < 0.05
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