Virginia G. Harris scite author profile

A definite relationship exists between the resistance of leptospires to the antibody-complement system and virulence. Leptospires capable of producing either lethal or renal infections in hamsters or guinea pigs were resistant to the leptospiricidal action of antibody and complement. Avirulent leptospires, in contrast to the virulent organisms, were rapidly immobilized and killed by these serum substances. The change of a virulent culture to the avirulent state as a result of growth in culture media was accompanied by the loss of resistance to antibody and complement. Virulent leptospires were phenotypically altered when grown in the presence of the purine analogue, 8-azaguanine. The cells became sensitive to antibody and complement without a corresponding decrease in virulence. The basis for a leptospiral virulence factor, the ability to multiply in vivo, appears to reside in their capacity to resist the leptospiricidal activity of the host antibody-complement system. The immune leptospiricidal assay provides a simple and rapid method of determining the virulence of a culture.

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Characterization of Leptospires according to Fatty Acid Requirements

Johnson

Harris

Walby

1969

Journal of General Microbiology

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SUMMARYThe fatty acid requirements of leptospires parasitic for mammals were compared to those of members of the 'biflexa complex' (leptospires not clearly demonstrated to be animal parasites). The parasitic leptospires grew on unsaturated fatty acids. Saturated fatty acids were not utilized unless an unsaturated fatty acid was also provided. This requirement for an unsaturated fatty acid was increased at temperatures above and below the optimal. In addition, these leptospires did not utilize fatty acids containing less than 15 to 16 carbon atoms unless a longer chain fatty acid was also present.

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Purine Analogue Sensitivity and Lipase Activity of Leptospires

Johnson

Harris

1968

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The genus Leptospira can be divided into three groups based on purine analogue sensitivity and lipase (trioleinase) activity. Group 1 contains members of the "parasitic complex" of leptospires which initially cannot grow in media containing 10 ,ug of 2,6-diaminopurine (DAP) per ml or 200 ,ug of 8-azaguanine per ml. In addition, leptospires in this group possess lipase activity. Group 2 also contains members of the "parasitic complex" of leptospires. Although these leptospires are similarly sensitive to 8-azaguanine, they differ from group 1 leptospires in that they grow in media containing 10 ,ug of DAP per ml, and they do not possess detectable lipase activity. Group 3 consists of leptospires belonging to the "biflexa complex." These leptospires are resistant to both purine analogues and have lipase activity.

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Purine Analogue Sensitivity and Lipase Activity of Leptospires

Johnson

Harris

1968

Appl Microbiol

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The genus Leptospira can be divided into three groups based on purine analogue sensitivity and lipase (trioleinase) activity. Group 1 contains members of the “parasitic complex” of leptospires which initially cannot grow in media containing 10 μg of 2,6-diaminopurine (DAP) per ml or 200 μg of 8-azaguanine per ml. In addition, leptospires in this group possess lipase activity. Group 2 also contains members of the “parasitic complex” of leptospires. Although these leptospires are similarly sensitive to 8-azaguanine, they differ from group 1 leptospires in that they grow in media containing 10 μg of DAP per ml, and they do not possess detectable lipase activity. Group 3 consists of leptospires belonging to the “biflexa complex.” These leptospires are resistant to both purine analogues and have lipase activity.

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