Bacteriological Information
Serovars
The genus Leptospira is an incredibly varied group of organisms, containing hundreds of serovars and
genetic types, which can occupy diverse environments, habitats and life cycles. Contained within the
genus are highly pathogenic host-specific strains, and harmless free-living waterborne strains. The
historical difficulty is that there is almost no visible difference within the genus - all look
pretty much identical. Before the development of DNA analysis, classification has been by
serological cross-testing (using serum antibodies to identify similar and different types of
bacteria), and in the leptospiral research world this concentration on 'obsessive labelling' has got
us quite a reputation. Leptospires are often considered too complex an area to get to grips with,
due to the huge numbers of tables, lists, groupings and arguments that are published each year.
This is a shame, as the leptospires are in fact a very interesting genus. Apart from the obvious
health issues of the pathogenic types, the free-living, innocuous saprophytes have quietly
established themselves in some amazingly diverse habitats, including some that have managed to cross
the saltwater boundary. Little is known about the genetics, lifestyles and personalities of these
non-pathogenic types.
At the LIC we are equally guilty of putting emphasis on the pathogenic groups, as these are our
raison d'etre. However in this section we also list the others in the family, and welcome input from
those working with the saprophytic serogroups.
The Order has three families: brachyspiraceae, spirospiraceae and leptospiraceae. Within
leptospiraceae there are only three genera, Leptonema, Turneria and Leptospira. The leptospira
genus is broken down in the table below:
| Genomospecies | Serogroup |
|---|---|
| L. interrogans [pathogenic] |
Australis |
| Autumnalis | |
| Ballum | |
| Bataviae | |
| Canicola | |
| Celledoni | |
| Cynopteri | |
| Djasiman | |
| Grippotyphosa | |
| Hebdomadis | |
| Icterohaemorrhagiae | |
| Javanica | |
| Louisiana | |
| Lyme | |
| Manhao | |
| Mini | |
| Panama | |
| Pomona | |
| Pyrogenes | |
| Ranarum | |
| Sarmin | |
| Sejroe | |
| Shermani | |
| Tarassovi | |
| L. biflexa [non-pathogenic] |
Andamana |
| Codice | |
| Semaranga | |
| L. borgpetersenii | |
| L. inadai | |
| L. noguchii | |
| L. santarosai | |
| L. weilii | |
| L. kirshneri | |
| L. meyeri | |
| L. wolbachii |
Each serogroup contains one or more serovars. In total there are about 240 recognised serovars for the serogroups
on the left We say 'about' as there are always 5 or 10 awaiting confirmation. The definitive listing is always available from the
Institut Pasteur Genetics Server.
Whilst a great number of serovars are known from human and animal subjects, only a small number cause
illness of any severity. The
Pasteur grouping places all
pathogenic strains under the interrogans block, and non-pathogenic strains under biflexa. The other
8 genonospecies are late additions and (as always with leptospiral research) somewhat break the
classification system.
In 2002 the IUMS confirmed the nomenclature for leptospira as follows:
Genus species serovar Serovar_name : i.e. genus and species italicised, serovar name in plain
text, genus and serovar capitalised and species lowercase. Examples include:
Leptospira interrogans serovar Ballum
Leptospira biflexa serovar Codice
L. interrogans serovar Canicola
A serovar is identified based on unique cross-matching, and in many cases there is only one isolate of each serovar. They are each referenced by their discoverer, location and host. Whilst work by the Institut Pasteur and others ensures that an 'official' serovar is indeed a new type and not just a case of another one, we can be sure that there are many times more out there than we know about.
The LIC thanks the Institut Pasteur Spirochaete Group for their classification data.
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