Attenuated Mannheimia haemolytica Vaccines and Methods of Making and Use

a technology of mannheimia haemolytica and mannheimia virus, which is applied in the field of attenuated bacterial vaccines, can solve the problems of difficult to achieve cross-protection against i>m. haemolytica /i>serotypes (either a6 or a2) using conventional vaccine preparations, and achieves safe, effective, broad protective immunity, the effect of reducing virulen

Inactive Publication Date: 2016-06-09
MERIAL INC +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

The present patent is about providing effective vaccines using attenuated M. haemolytica serotypes A1 and A6. These attenuated strains may have genomic modifications, including deletions, substitutions, and additions, and whose presence (or absence) is associated with reduced virulence. The vaccines provide safe, effective, and broad protective immunity. One example is a mutant M. haemolytica (serotype A1 D153) with a deletion of a portion of the leukotoxin gene, resulting in a strain that produces a truncated, noncytotoxic version of LktA protein.

Problems solved by technology

The vaccines currently available in the market against M. haemolytica infections are only moderately protective against shipping fever of beef cattle but generally ineffective against neonatal dairy calf pneumonia (Virtala et al., 1996; Rice et al., 2007).
Furthermore, cross-protection against M. haemolytica serotypes (either A6 or A2) has been difficult to achieve using conventional vaccine preparations (Purdy et al., 1993; Sabri et al., 2000).
Although intranasal vaccination and leukotoxin deficient M. haemolytica are known, inventors are aware of no M. haemolytica vaccines successfully combining these concepts.

Method used

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  • Attenuated Mannheimia haemolytica Vaccines and Methods of Making and Use
  • Attenuated Mannheimia haemolytica Vaccines and Methods of Making and Use
  • Attenuated Mannheimia haemolytica Vaccines and Methods of Making and Use

Examples

Experimental program
Comparison scheme
Effect test

example 1

Production of Attenuated M. haemolytica

[0098]M. haemolytica is a commensal organism of the upper respiratory tract of calves and other ruminants. Under stress and in immunocompromised animals M. haemolytica descends into lungs and causes severe systemic disease resulting in pneumonic pasteurellosis or “shipping fever”. The pathogen can be spread by nose to nose contact. To attenuate the bacterium, we deleted nucleotides within the LktCA locus, which encodes an enzyme acylase (LktC) and leukotoxin A (LktA), the bacterium's chief cytotoxin. This deletion can be amplified by polymerase chain reaction (PCR) and the secretion of a truncated LktA can be detected on a Western blot to determine if the bacterium is the mutant or wildtype. The genetic engineering is summarized in FIGS. 1-3. All reagents, including the shuttle vectors pCR2.1, pBC SK, pSK, and pCT109GA189 is ori, and the E. coli DH11S host cell, are well-known to and accessible by persons skilled in the art.

[0099]Construction ...

example 2

Efficacy of Attenuated M. haemolytica in Calves

[0104]Calves were randomly assigned to one of three groups, each receiving either 106 or 107 CFU of the MH A1+A6 vaccine, or the control RPMI (diluent). Lyophilized Mannheimia haemolytica (MH) serotypes A1 and A6 were resuspended and administered intranasally, 1 mL to each nostril, of nine calves, aged 5-6 weeks. The calves were observed for feed intake and rectal temperatures taken morning and evening for 3 days post vaccination. Nasal colonization of M. haemolytica A1 and A6 following vaccination was analyzed by RT-QPCR (differentiated among M. haemolytica A1 and A6 throughout the study). Vaccines were plated on TSA for exact CFU / ml count on each vaccine the following day.

[0105]Challenge. A fresh glycerol stock of virulent MH A1 was grown O / N in BHI medium, plated (TSA) the next day and incubated at 37° C. The following day, plates were scraped and diluted into RPMI medium supplemented with 2% inactivated fetal bovine serum. The inocu...

example 3

Intranasal Vaccination of Calves using Mannheimia haemolytica A1 & A6 Vaccines Followed by Virulent Challenge

[0109]Fifteen calves, 4 weeks of age and housed in 3 different pens / 5 calves per pen, were randomly assigned to one of the two treatment groups. Calves were vaccinated intranasally with modified live Mannheimia haemolytic(' serotypes A1 and A6 (reconstituted from lyophilized. Table 9), and intranasal colonization of A1 and A6 was monitored by real time PCR. Calves were finally challenged with virulent M. haemolytica A6 (wild type) to determine vaccine efficacy.

TABLE 9Treatment Groups.Total Dose / CFURoute / CalfGroupTreatmentper animalvolumeId #1M. haemolytica107 (1.43 × 106 +Intranasal2, 4, 6A1 + A68.63 × 105)*1 ml per8, 10nostril2M. haemolytica108 (1.43 × 107 +Intranasal1, 3, 5,A1 + A68.63 × 106)*1 ml per7, 9nostril3Control-controlIntranasal162, 166,Lyophilized1 ml per170, 174,RPMI +nostril175stabilizer*Actual CFU / ml based on plate count

[0110]Vaccination. Lyophilized cultures o...

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Abstract

The present invention provides attenuated M. haemolytica strains that elicit an immune response in animals against M. haemolytica, compositions comprising said strains, methods of vaccination against M. haemolytica, and kits for use with such methods and compositions. The invention further provides multi-valent vaccines, which provide protective immunity when administered in an effective amount to animals susceptible to “shipping fever” or bovine respiratory disease.

Description

[0001]This application incorporates by reference the contents of a 62.9 kb text file created on Nov. 6, 2015 and named “sequencelisting.txt,” which is the sequence listing for this application.FIELD OF THE INVENTION[0002]The present invention relates generally to attenuated bacterial vaccines, particularly those providing broad, safe, and effective protection to production animals against infections / disease caused by gram-negative bacteria, including Mannheimia (Pasteurella) haemolytica. The invention further relates to methods of producing the attenuated bacteria, and to PCR methods for differentiating among M. haemolytica serotypes AI and A6, in vivo.[0003]The invention accordingly relates to immunogenic or vaccine compositions comprising the bacteria of the invention; e.g., live attenuated bacteria. The bacteria also could be inactivated in the compositions, but it may be advantageous that the bacteria are live attenuated M. haemolytica bacteria, either alone, or combined with ot...

Claims

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Application Information

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Patent Type & AuthorityApplications(United States)
IPC IPC(8): A61K39/102
CPCA61K39/102A61K2039/543A61K2039/522A61K2039/552A61K2039/70C07K14/285C12N1/36A61P31/04
InventorBEY, RUSSELL FLAWRENCE, PAULRAJ KIRUBAKARANSIMONSON, RANDY RBRIGGS, ROBERT ETATUM, FRED M
OwnerMERIAL INC