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Evaluation of a Standard Dietary Regimen Combined with Heat-Inactivated Lactobacillus gasseri HM1, Lactoferrin-Producing HM1, and Their Sonication-Inactivated Variants in the Management of Metabolic Disorders in an Obesity Mouse Model.

Foods (Basel, Switzerland)
April 1, 2024
Wei-Chen Shiu et al. (5 authors)
Journal ArticleAnimal Study
Study Details

Study Goal

The researchers aimed to determine whether recombinant lactoferrin (LF) expressed in inactivated probiotics could improve metabolic-related disorders, particularly glucose tolerance and insulin sensitivity, in obese mice.

Results Summary

The study found that recombinant LF (in SK-HM1/LF) improved glucose tolerance more than other probiotic formulations, though it did not enhance insulin sensitivity. LF-expressing probiotics also showed potential benefits in reducing inflammation and improving lipid profiles (triglycerides and cholesterol).

Population

Obese mice induced by a 13-week high-fat diet.

Effective Dosage

Not specified (daily oral administration via gavage).

Duration

6 weeks.

Interactions

None mentioned.

Extracted Claims (12)
InterventionDirectionEndpointPopulationDosageImpactClaim #
standard chow diet
increase
glucose tolerance
obese mice
-
improved
#1
inactivated probiotics
increase
glucose tolerance
obese mice
-
further enhanced
#2
sonication-killed LF-expression HM1 (SK-HM1/LF)
increase
glucose tolerance
obese mice
-
demonstrating the most noticeable improvement
#3
regular dietary intervention
increase
insulin sensitivity
obese mice
-
improved
#4
probiotic supplementation
no change
insulin sensitivity
obese mice
-
did not provide additional benefits
#5
regular diet
decrease
inflammation in perirenal and epididymal fat tissues
obese mice
-
partially alleviated
#6
probiotics
decrease
inflammation in perirenal and epididymal fat tissues
obese mice
-
further improved
#7
sonication-killed HM1 (SK-HM1)
decrease
inflammation in perirenal and epididymal fat tissues
obese mice
-
showed the most significant reduction
#8
heat-inactivated Lactobacillus gasseri HM1 (HK-HM1)
decrease
serum total triglycerides
obese mice
-
could contribute to the improvement of
#9
heat-killed LF-expression HM1 (HK-HM1/LF)
decrease
serum total cholesterol
obese mice
-
could contribute to the improvement of
#10
incorporating inactivated probiotics into a regular diet
increase
metabolic indices
obese mice
-
may enhance
#11
recombinant LF
increase
glucose tolerance
obese mice
-
may offer potential benefits for improving
#12
Abstract

This study investigated the impact of incorporating various inactivated probiotic formulations, with or without recombinant lactoferrin (LF) expression, into a standard chow diet on metabolic-related disorders in obese mice. After inducing obesity through a 13-week high-fat diet followed by a standard chow diet, mice received daily oral administrations of different probiotics for 6 weeks using the oral gavage approach. These probiotic formulations consisted of a placebo (MRS), heat-inactivated Lactobacillus gasseri HM1 (HK-HM1), heat-killed LF-expression HM1 (HK-HM1/LF), sonication-killed HM1 (SK-HM1), and sonication-killed LF-expression HM1 (SK-HM1/LF). The study successfully induced obesity, resulting in worsened glucose tolerance and insulin sensitivity. Interestingly, the regular diet alone improved glucose tolerance, and the addition of inactivated probiotics further enhanced this effect, with SK-HM1/LF demonstrating the most noticeable improvement. However, while regular dietary intervention alone improved insulin sensitivity, probiotic supplementation did not provide additional benefits in this aspect. Inflammation in perirenal and epididymal fat tissues was partially alleviated by the regular diet and further improved by probiotics, particularly by SK-HM1, which showed the most significant reduction. Additionally, HK-HM1 and HK-HM1/LF supplements could contribute to the improvement of serum total triglycerides or total cholesterol, respectively. Overall, incorporating inactivated probiotics into a regular diet may enhance metabolic indices, and recombinant LF may offer potential benefits for improving glucose tolerance.

Study Links
Quality Scores
SafetyNot Assessed
Efficacy75/10
Quality80/10
Citation Metrics
Total Citations3
Citations/Year3.0
Research Impact Scores
APT Score0.05
Weight Score1.38
Normalized Score0.66
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