Ageing of the population is an imminent global problem. Lactobacillus casei Zhang (LcZ) was isolated from Inner Mongolian fermented milk, koumiss. LcZ possesses numerous probiotic properties in in vitro tests and in animal models. However, it has never been tested in any human trial. In the current study, the impact of oral consumption of LcZ on different age groups was tested. Chinese subjects, including 10 young, 7 middle-aged and 7 elderly volunteers (with mean age of 24.3, 47.6 and 64.7, respectively), were recruited. Each subject took 10.6 log10 cfu LcZ daily for a continuous period of 28 days. Several parameters, including the amounts of LcZ and four selected groups of bacteria, change of bacterial diversity, short chain fatty acids (SCFA) and total bile acids (TBA), were monitored in faecal samples collected from the subjects before starting, during and after stopping oral LcZ consumption. The consumption of LcZ exhibited beneficial effects to the subjects by modulating faecal microbiota in a temporal manner with a prolonged elevation of SCFA and reduction of TBA. The potentially harmful Pseudomonas and Acinetobacter genera were suppressed by the probiotic administration. Furthermore, a moderately divergent response was observed in the indigenous gut populations of Bifidobacterium and Bacteroides fragilis group in different age subjects. Taken together, the current study has provided proof on the positive effect of probiotic consumption and crucial insights into the design and application of probiotic-based products to users of different age segments.
Lactobacillus plantarum P-8 (Lp-8) is a novel probiotic bacterium showing beneficial effects in human. The current study is a follow-up work of a previous clinical trial, and it aimed at understanding the mechanism of the observed desirable effects by evaluating the change in faecal bacterial structure at phylogenetic level. The genomic DNAs used for 16S rRNA polymerase chain reaction (PCR)-pyrosequencing were obtained from the previous clinical trial. Briefly, 33 recruited subjects were given a single daily oral dose of Lp-8 (6×10(10) cfu) for 4 weeks. Faecal genomic DNAs were extracted from samples collected before (day 0) and after (day 28) Lp-8 consumption from the subjects. Our results show that the consumption of Lp-8 did not result in major change in the faecal bacterial structure by principal coordinate analysis. However, multivariate analysis of variance and analysis of UniFrac metric distances at day 0 and day 28 revealed significant difference in the faecal bacterial structure upon Lp-8 treatment. Thus, the difference lied on the less abundant rather than the predominant lineages. At genus level, the relative abundance of 5 Firmicutes genera (Leuconostoc, Lactobacillus, Sporacetigenium, Blautia and Staphylococcus) significantly increased after Lp-8 consumption, whereas 3 Proteobacteria genera (Shigella, Escherichia and Enterobacter) decreased (P<0.05). 60 key responding lineages could be identified at operational taxonomic unit (OTU) level by redundancy analysis. Among them, the abundance of 18 OTUs showed significant difference (P<0.05), while 12 OTUs exhibited modest change (0.05
This study was undertaken to evaluate the milk protein response when cows were supplied a balanced AA profile and to determine whether a deficiency of Leucine (Leu) or Arginine (Arg) had a negative effect on milk protein. Eight mid-lactation Holstein cows were randomly assigned to 5-day continuous jugular infusions of saline (CTL), EAA mixture prepared on the profile of casein and supplied (in % of lysine (Lys)) 100% of Lys, 33.3% of methionine (Met), 110.2% of Leu, 43.6% of Arg, 50.8% of threonine (Thr), 81.6% of valine (Val), 69.7% of isoleucine (Ile), 61.4% of phenylalanine (Phe) and 34.2% of histidine (His) (Casein, 160 g/d), EAA mixture excluding Leu (-Leu, 163 g/d) or EAA mixture excluding Arg (-Arg, 158 g/d) in a duplicated 4 × 4 Latin square design with four infusion periods separated by 7-day interval period. The basal diet supplied 1.6 Mcal NE and 94.4 g MP per 1 kg DM to meet requirements for lactation. The Casein treatment provided a balanced supply (in % of MP) of 10.3% Leu and 5.3% Arg, whereas in the two subsequent -Leu and -Arg treatments, the concentration of Leu and Arg was reduced to 8.4 and 4.6% respectively. Dry matter intake (15.4 kg/day) was not affected by treatments. The Casein treatment increased milk yield (14.9%, p < 0.001), milk protein yield (120 g, p < 0.001) and milk protein efficiency (0.03, p = 0.099) than CTL treatment. However, the -Leu treatment decreased the responses of above-measured parameters by 6.25%, 70 g, 0.05 (p < 0.06) (compared with Casein). These effects of Leu were related to decreased Leu concentration and improved concentration of Ile and Val in plasma. The -Arg treatment decreased the plasma Arg concentration than the Casein treatment, whereby resulted in the decrease of milk yield (5.7%, p = 0.073), milk protein yield (60 g, p = 0.011) and milk protein efficiency (0.04, p = 0.037). In conclusion, supply of EAA profile of casein can increase the lactation production in dairy cows, and 8.6% of Leu in MP partly limits the milk protein response when the requirements of Lys, Met and His were met. The level of Arg at 4.6% MP is not deemed to an ideal profile, as evidenced by decreased milk protein efficiency.
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