The gastrointestinal tract harbours a diverse and dynamic microbial community that directly impacts human
health. Prebiotics, such as fructo-oligosaccharides (FOS), play a crucial role in the modulation of colonic
microbiota, reducing pathophysiological disorders and associated chronic diseases.
The prebiotic potential of FOS produced by a newly isolated strain Aspergillus ibericus was studied. FOS
fermentability by the probiotic Lactobacillus rhamnosus was evaluated.
L. rhamnosus was grown in de Man-Rogosa-Sharpe (MRS) broth, with different carbon sources: glucose
(positive control), no sugar (negative control), microbial-derived FOS from A. ibericus and Raftilose®P95, a
non-microbial commercial FOS sample (from Beneo-Orafti, Belgium). A final concentration of 2 % (w/v) in
sugar was used. Fermentation was carried out in a 96-well microplate and a shake flask, for 24 h, at 37 ºC,
with an agitation of 120 rpm. Biomass growth was analysed by optical density at 620 nm. The consumption
of sugars and the production of short chain fatty acids (SCFA) and lactate was quantified by HPLC.
Maximum cell growth was reached at approximately 12 h, for all carbon sources. The highest growth was
achieved for glucose samples, followed by the microbial-derived FOS, then Raflitose and finally the negative
control. Although the microbial-derived FOS promoted great cellular growth, only kestose (GF2), together
with residual amounts of glucose and sucrose presented in the sample, were consumed. This may explain
the two different slopes exhibited during the exponential phase growth. Most likely hypothesis is that probiotic
bacteria was cleaving GF2 in the first hours of fermentation, using only the smallest sugars present for
growing. And Nystose (GF3) and fructofuranosylnystose (GF4) were not consumed, even when prolonging
the fermentation up to 48 h.
SCFA identified were valerate and propionate, as well as succinate, formate, acetate, iso-butyrate and nbutirate,
although in lower amount. Higher amount of SCFA and lactate were determined while growing in the
microbial-derived FOS, as compared to the commercial sample. Overall, lactate was the main metabolite
produced during the fermentations.
In conclusion, the prebiotic potential of microbial-derived FOS synthesized by A. ibericus was demonstrated,
providing promising indication of its usability as food ingredient with strong prebiotic features.info:eu-repo/semantics/publishedVersio