Pasteurella multocida is a Gram-negative bacterial pathogen that is the causative agent of a wide range of diseases in many animal species, including humans. A widely used method for differentiation of P. multocida strains involves the Heddleston serotyping scheme. This scheme was developed in the early 1970s and classifies P. multocida strains into 16 somatic or lipopolysaccharide (LPS) serovars using an agar gel diffusion precipitin test. However, this gel diffusion assay is problematic, with difficulties reported in accuracy, reproducibility, and the sourcing of quality serovar-specific antisera. Using our knowledge of the genetics of LPS biosynthesis in P. multocida, we have developed a multiplex PCR (mPCR) that is able to differentiate strains based on the genetic organization of the LPS outer core biosynthesis loci. The accuracy of the LPS-mPCR was compared with classical Heddleston serotyping using LPS compositional data as the "gold standard." The LPS-mPCR correctly typed 57 of 58 isolates; Heddleston serotyping was able to correctly and unambiguously type only 20 of the 58 isolates. We conclude that our LPS-mPCR is a highly accurate LPS genotyping method that should replace the Heddleston serotyping scheme for the classification of P. multocida strains. P asteurella multocida is the primary causative agent of a wide range of economically important diseases, including hemorrhagic septicemia in ungulates, atrophic rhinitis in pigs, fowl cholera in birds, snuffles in rabbits, and enzootic pneumonia and shipping fever in cattle, sheep, and pigs (1). P. multocida also causes opportunistic infections in humans, often following cat or dog bites, and plays a contributory role, together with other pathogens, in a range of lower respiratory tract infections and sporadic septicemias in ungulates (1).P. multocida strains have classically been differentiated using serological techniques. Strains can be classified into five capsular serogroups (A, B, D, E, and F) using an indirect hemagglutination test (2) and into 16 somatic or lipopolysaccharide (LPS) serovars (serotypes) using the Heddleston gel diffusion precipitin test (3). Both of these schemes have been widely used. Isolates are commonly assigned a combined designation, such as A:1 (capsular serogroup A and LPS serovar 1) or B:2 (capsular serogroup B and LPS serovar 2).P. multocida LPS is an immunodominant antigen critical for homologous protection stimulated by bacterin (killed-cell) vaccines (4). Furthermore, in the P. multocida strain VP161, a fulllength LPS molecule is essential for the ability to cause acute disease (5, 6). Heddleston serotyping is currently the only method used to differentiate P. multocida strains on the basis of LPS type. However, the accuracy of Heddleston serotyping has never been objectively tested, as the precise LPS structures produced by different strains have not been known. Indeed, there have been many informal as well as formal reports that the Heddleston system fails to type many isolates and lacks accuracy and reproducibilit...
