Monthly Archives: July 2014
It is really surprising, but it seems so: Italian and Austrian researchers have published a paper (Campisano et al. 2014) which shows that the bacterial species Propionibacterium acnes, related to human acne, can be found as obligate endophytes in bark tissues of Vitis vinifera, the grapevine.
Some bacterial pathogens of humans, such as Salmonella, are able to colonize plant tissues but temporarily and opportunistically (Tyler & Triplett 2008). In fact, there is a temporary mutual benefit between plants and bacteria, so some of these enterobacteria pathogenic to plants do not live endophytically and can be beneficial for them. These pathogens to humans, in its life cycle, use plants as alternative hosts to survive the environment, passing to the plants through contaminated irrigation water. Therefore, some bacteria are often temporary endophyte guests of plants.
But on the other hand, there are relatively rare cases of bacteria changing the host and adapting to the new host, finally being endophytes. This horizontal transfer happens mostly between evolutionarily close hosts, such as symbiotic bacteria of aphids (insects), which has proven to transfer to other species of aphids (Russell & Moran 2005). It has also been suggested the horizontal transfer of beneficial lactic acid bacteria (Lactobacillus reuteri) in the intestinal tract of vertebrates, since strains of this L. reuteri are similar in several species of mammals and birds.
Well, going beyond, the work of Campisano et al. subject of this review, concludes that bacteria associated with human acne should have passed on the vine, that is, the bacteria would have made a horizontal transfer interregnum, from plants to mammals.
Propionibacterium acnes type Zappae
Acne, as you know, is a common human skin disease, consisting of an excess secretion of the pilosebaceous glands caused by hormonal changes, especially teenagers. The glands become inflamed, the pores obstructed and scarring appears. The microorganism associated with these infections is the opportunistic commensal bacterium P. acnes, a gram-positive anaerobic aero tolerant rod, which fed fatty acids produced by the glands.
Young with acne (Wikimedia, public)
Propionibacterium acnes at the scanning electron microscope (left) and dyed with violet crystal (right). From Abate ME (2013) Student Pulse 5, 9, 1-4.
Interestingly, other species of the same genus Propionibacterium well known in microbial biotechnology industry are used for the production of propionic acid, vitamin B12, and the Swiss cheeses Gruyere or Emmental.
Campisano et al. have made a study of the vineyard endomicrobioma by the sequencing technique (Roche 454) amplifying the V5-V9 hyper variable region of the bacterial 16S rDNA present in the tissues of vine. In 54 of the 60 plants analyzed, between 0.5% and 5% of the found sequences correspond to the species Propionibacterium acnes. This observation has been confirmed by fluorescent in situ hybridization (FISH) with fluorochromes and specific probes of P. acnes.
Location of P. acnes (fluorescent blue spots) in the bark of a vine stem, seen with FISH microscopy with specific probes for this bacterium (Campisano et al 2004).
The authors of this work proposed for this bacterium the name of P. acnes Zappae, in memory of the eccentric musician and composer Frank Zappa, to emphasize the unexpected and unconventional habitat of this type of P. acnes.
Frank Zappa (1940-1993), the eccentric and satiric singer, musician and composer. Photo: Frank Zappa reviews.
And how did this human bacteria arrive into the vineyard?
To solve this riddle, Campisano et al. have taken the 16S rDNA sequences and from other genes (recA and tly) from these strains of P. acnes Zappae found in vine and have compared with those P. acnes of human origin in databases. Comparing phylogenies and clusters deducted from them, these researchers have concluded that P. a. Zappae has diversified evolutionarily recently. Studying in detail the recA gene sequences of P. a. Zappae, and taking into account the likely mutation rate and generation time (about 5 hours), they deduce that the diversification from other P. acnes occurred 6000-7000 years ago.
This date coincides with the known domestication of the vine by humans, which is believed to have occurred about 7000 years ago in the southern Caucasus, between the Black Sea and the Caspian Sea, the area of modern Turkey, Georgia, Armenia and Iran (Berkowitz 1996). The vineyard has its origins in a wild subspecies of Vitis that survived the Ice Age and was domesticated. This plant came out to three subspecies, and one of them, Vitis vinifera pontica, spread in the mentioned area and further south in Mesopotamia and then to all south Europe thanks to the Phoenicians.
Therefore, the conclusion is that P. acnes Zappae originated from human P. acnes 7000 years ago, by contact of human hands with grapes and other parts of the vineyard during the harvest and carrying them. As the authors say, this case would be the first evidence of horizontal transfer interregnum, from humans to plants, of a obligate symbiotic bacterium. This also makes more remarkable the adaptability of bacteria. Their ability to exploit new habitats can have unforeseen impacts on the evolution of host-symbiont relationship or even host-pathogen.
Harvesting by hand in Chile (Fine Wine and Good Spirits)
Berkowitz M (1996) World’s earliest wine. Archaeology 49, 5, Sept./Oct.
Campisano Aet al. (2014) Interkingdom transfer of the acne-causing agent, Propionibacterium acnes, from human to grapevine. Mol Biol Evol 31, 1059-1065.
Gruber K (4 march 2014) How grapevines got acne bacteria. Nature News 4 march 2014.
Russell JA, NA Moran (2005) Horizontal transfer of bacterial symbionts: heritability and fitness effects in a novel aphid host. Appl Environ Microbiol 71, 7987-7994.
Tyler HL, EW Triplett (2008) Plants as a habitat for beneficial and/or human pathogenic bacteria. Ann Rev Phytopathol 46, 53-73.
Walter J, RA Britton, S Roos (2011) PNAS 108, 4645-4652.