- Source: Bifidobacterium bifidum
Bifidobacterium bifidum is a bacterial species of the genus Bifidobacterium. B. bifidum is one of the most common probiotic bacteria that can be found in the body of mammals, including humans.
Structure and characteristics
B. bifidum is a Gram-positive, anaerobic bacterium that is neither motile nor spore-forming. The bacterium is rod-shaped and can be found living in clusters, pairs, or even independently. The majority of the population of B. bifidum is found in the colon, lower small intestine, breast milk, and often in the vagina.
B. bifidum (along with B. longum and B. breve) dominates in breastfed infants. With age, this composition alters in favor of other bifidobacteria species, and the total bifidobacteria population declines to lower but relatively stable levels.
B. bifidum is an essential bacteria found in the human intestine. When it is low or absent all together in the human intestine, it is an indication of being in an unhealthy state. Intestinal flora can be improved if someone takes oral B. bifidum. Also, oral B. bifidum is used for other things such as therapy for enteric and hepatic disorders, for activating the immune response, and for preventing some cancers.
Benefits
Various strains of B. bifidum have been shown to confer significant health benefits to their human host.
Antibacterial activity: B. bifidum BF-1 and CECT 7366 exhibit activity against pathogens, including Helicobacter pylori.
Gut health improvement: B. bifidum MIMBb75 and DSM 20082 help alleviate symptoms of irritable bowel syndrome (IBS) and certain chronic large bowel dysfunctions.
Reduction of apoptosis: B. bifidum OLB6378 reduces apoptosis in the intestinal epithelium of infants with necrotizing enterocolitis.
Immune modulation: ATCC 86321 and S17 influence immune responses by balancing inflammatory and anti-inflammatory activity.
Additionally, B. bifidum demonstrates strong adhesion to intestinal epithelial cells, a critical feature for its persistence in the gastrointestinal tract and its ability to provide health-promoting effects. This species also plays an essential role in establishing a balanced intestinal microbiota in newborns, working alongside B. breve and B. longum subsp. infantis.
Health concerns
The manipulation of the gut flora is complex and may cause bacteria-host interactions. Although probiotics, in general, are considered safe, there are concerns about their use in certain cases. Some people, such as those with compromised immune systems, short bowel syndrome, central venous catheters, heart valve disease and premature infants, may be at higher risk for adverse events. Rarely, consumption of probiotics may cause bacteremia, and sepsis, potentially fatal infections in children with lowered immune systems or who are already critically ill.
Maternal inheritance and persistence in gut microbiota
B. bifidum is among the first microbial colonizers of the infant gut, introduced through maternal transmission during birth and breastfeeding. This vertical transmission process facilitates the establishment of B. bifidum and other bifidobacteria, which are commonly found in both the mother’s gut and milk. Studies using metagenomics and profiling techniques have identified specific strains of B. bifidum shared between mothers and infants, persisting in the infant gut for up to a year. Such maternal inheritance highlights the evolutionary relationship between bifidobacteria and their hosts, with maternal milk serving as a critical vector for colonization. This process can be disrupted under non-natural conditions like cesarean delivery or formula feeding.
Beyond early life, B. bifidum exhibits persistence in the human gut, albeit at lower abundances, throughout life. Its ability to persist is attributed to unique genomic features, including genes for extracellular structures like exopolysaccharides, pili, and enzymes involved in carbohydrate metabolism. These features enable B. bifidum to utilize complex dietary carbohydrates and host-derived glycans, such as mucin and human milk oligosaccharides (HMOs), providing a competitive advantage for colonization and resilience in the gut environment. Strains capable of metabolizing HMOs and mucin demonstrate higher resilience and are better equipped for long-term colonization, making B. bifidum a crucial contributor to gut health and microbial stability across life stages.
Research on different Bifidobacterium strains
MIMBb75
B. bifidum MIMBb75 is a probiotic strain isolated from a healthy adult. It is recognized for its strong adhesion to intestinal cells and its role in immune system modulation. The strain has demonstrated effectiveness in reducing symptoms of irritable bowel syndrome (IBS) and is available as a pharmaceutical probiotic product in encapsulated form.
BGN4
B. bifidum BGN4 has been used in health products and dairy production since 2000. It offers multiple health benefits, including supporting immune health, reducing IBS symptoms, and aiding in eczema treatment. Research has also suggested anti-cancer properties and interactions with plant-based compounds. Recent genomic studies highlight its potential for broader applications.
PRL2010
B. bifidum PRL2010 is noted for its immune-boosting effects, helping balance inflammation and promoting gut health. It can metabolize complex sugars in the gut, facilitating its colonization of the intestine. This strain also produces pili, which enhance its ability to adhere to intestinal surfaces and inhibit the adhesion of pathogens such as E. coli.
References
External links
Type strain of Bifidobacterium bifidum at BacDive - the Bacterial Diversity Metadatabase
Kata Kunci Pencarian:
- Bifidobacterium
- Probiotik
- Lactobacillus acidophilus
- Bifidobacterium bifidum
- Bifidobacterium
- Bifidobacterium animalis
- Prokinetic agent
- Lactic acid fermentation
- Bifidobacterium longum
- Ligilactobacillus salivarius
- Kefir
- Mayonnaise
- Lactobacillus acidophilus