TY - JOUR
T1 - Growth-promoting effects of the hydrogen-sulfide compounds produced by Desulfovibrio desulfuricans subsp. desulfuricans cocultured with Escherichia coli (DH5α) on the growth of Entamoeba and Endolimax species isolates from swine
AU - Yoshida, Naoko
AU - Kobayashi, Seiki
AU - Suzuki, Jun
AU - Azuma, Yoshiyuki
AU - Kobayashi-Ogata, Namiko
AU - Kartikasari, Dwi Peni
AU - Yanagawa, Yasuaki
AU - Iwata, Satoshi
N1 - Publisher Copyright:
© 2019, International Advancement Center for Medicine and Health Research Co., Ltd.
PY - 2019
Y1 - 2019
N2 - Certain Desulfovibrio sp. (anaerobic sulfate-reducing bacteria) are indigenous to swine cecum and colon, which are also common habitats for parasitic amoebae such as Entamoeba polecki and Entamoeba suis. In this study, we evaluated the growth-promoting effects of D. desulfuricans co-cultured with Escherichia coli (DH5α) and its products [e.g., hydrogen sulfide (H2S) and certain iron-sulfide (FeS) compounds] using Robinson's medium, on the 4 amoeba isolates from swine-Entamoeba polecki subtype (ST)-1, E. polecki ST-3, Entamoeba suis, and Endolimax sp., and, consequently, a continuous culture system for these amoebae was established. However, this novel culture system was required to regulate the excess H2S dissolved in the medium by increasing air space as amoeba isolates thrive only in large air spaces (30-40%). The effects of air space and H2S and FeS compounds on the growth of E. polecki ST-1 (TDP-5) were determined. E. polecki ST-1 (TDP-5) thrived well in culture bottles with an air space of 30-40% (aerobic) (H2S: ~250-400 μmoles/L), but did not grow at all in an air space < 5% (microaerobic) (H2S:~800 μmoles/L) and in anaerobic vessels (H2S: 20-30 μmoles/L). In both H2S-depleted and FeS compound-depleted conditions, the amoebae sp. could not thrive either. It was hypothesized that an appropriate concentration of H2S and FeS compounds might function as important physiologically active components of electron carriers such as FeS and ferredoxin.
AB - Certain Desulfovibrio sp. (anaerobic sulfate-reducing bacteria) are indigenous to swine cecum and colon, which are also common habitats for parasitic amoebae such as Entamoeba polecki and Entamoeba suis. In this study, we evaluated the growth-promoting effects of D. desulfuricans co-cultured with Escherichia coli (DH5α) and its products [e.g., hydrogen sulfide (H2S) and certain iron-sulfide (FeS) compounds] using Robinson's medium, on the 4 amoeba isolates from swine-Entamoeba polecki subtype (ST)-1, E. polecki ST-3, Entamoeba suis, and Endolimax sp., and, consequently, a continuous culture system for these amoebae was established. However, this novel culture system was required to regulate the excess H2S dissolved in the medium by increasing air space as amoeba isolates thrive only in large air spaces (30-40%). The effects of air space and H2S and FeS compounds on the growth of E. polecki ST-1 (TDP-5) were determined. E. polecki ST-1 (TDP-5) thrived well in culture bottles with an air space of 30-40% (aerobic) (H2S: ~250-400 μmoles/L), but did not grow at all in an air space < 5% (microaerobic) (H2S:~800 μmoles/L) and in anaerobic vessels (H2S: 20-30 μmoles/L). In both H2S-depleted and FeS compound-depleted conditions, the amoebae sp. could not thrive either. It was hypothesized that an appropriate concentration of H2S and FeS compounds might function as important physiologically active components of electron carriers such as FeS and ferredoxin.
KW - Desulfovibrio desulfuricans
KW - Hydrogensulfide
KW - Iron-sulfide compound
KW - Robinson's medium
KW - Swine amoeba isolate
UR - http://www.scopus.com/inward/record.url?scp=85074963295&partnerID=8YFLogxK
U2 - 10.5582/bst.2019.01233
DO - 10.5582/bst.2019.01233
M3 - Article
C2 - 31597818
AN - SCOPUS:85074963295
SN - 1881-7815
VL - 13
SP - 402
EP - 410
JO - BioScience Trends
JF - BioScience Trends
IS - 5
ER -