A new antivirulence approach against pathogenic bacteria A new antivirulence approach against pathogenic bacteria May 2005 Sonia Escaich - President & CSO
Corporate overview Biopharmaceutical company specialized in antibacterial drug discovery for prevention of severe infections especially nosocomial Portfolio of intellectual property Virulence validated targets – Preclinical development of inhibitors small molecules Experienced management and R&D team - Prestigious academic partnerships - 3 R&D grants (ANVAR, Genhomme, BioSecurity) 20 Employees: –1 CEO/CSO, 1 director MedChem, 9 biologists/biochemists, 7 medicinal chemists (8 Ph.D,10 RAs) –2 G&As Incorporated mid Located at Biocitech Parc, Paris (France) EUR 10.2M (USD 13M) raised since Investors: BioAm, Axa PE, Auriga, Credit Agricole PE.
MUTABILIS’ research objectives Discovery of innovative anti-virulence treatments for nosocomial infections –Therapeutic molecules : Inhibition of virulence factors. –Therapeutic vaccines and antibodies
Background: Medical need for new anti-infective therapies Nosocomial infections (NI) occur in 2-10% of hospitalized patients (ICU, Surgery, internal medicine…) Three types of pathogens: Gram+ bacteria: 45%. Gram- bacteria: 35%. Others: 20%. Complications of nosocomial infections generate extensive hospitalization, and intensive care costs. Severe infections and sepsis can be lethal (30% cases) The increasing number of invasive procedures and the emergence of antibiotic resistance are causing a real public health problem Antibiotics-based treatments result in the destruction of commensal bacteria and drug resistance Newer antibiotics are kept as last resort therapy Nosocomial infections (NI) occur in 2-10% of hospitalized patients (ICU, Surgery, internal medicine…) Three types of pathogens: Gram+ bacteria: 45%. Gram- bacteria: 35%. Others: 20%. Complications of nosocomial infections generate extensive hospitalization, and intensive care costs. Severe infections and sepsis can be lethal (30% cases) The increasing number of invasive procedures and the emergence of antibiotic resistance are causing a real public health problem Antibiotics-based treatments result in the destruction of commensal bacteria and drug resistance Newer antibiotics are kept as last resort therapy
Pathogenic bacteria use a range of virulence factors to establish infection Pathogenic bacteria Specific Immunity Innate Immunity Colonization Invasion Shield to immune system Toxins Virulence mechanismsHost defenses Environment adaptation
MUTABILIS’ approach to virulence Gut Blood Systemic infection Selective inhibition of the virulence factors required for systemic dissemination in the host.
Drug approach: –Selective inhibition of pathogenic bacteria by targeting virulence factors necessary for bacterial spreading in blood –Virulence inhibitors do not perturb development of commensal bacteria –Diminished risk of developing resistant mutants because of lower selective pressure This lead to the discovery of new classes of antibacterial molecules that are not classical antibiotics Vaccine approach: Inhibition of specific pathogens in a bacterial species Preventive vaccine/passive immunity for nosocomial infections Scientific strategy:
THERAPEUTIC APPROACH: Antibiotics versus virulence inhibitors Common ground in both approaches: –Infections are treated through eradication of bacteria in the blood. Advantages of virulence inhibitors: –Virulence inhibitors do not perturb development of commensal bacteria. –Diminished risk of developing resistant mutants because of lower selective pressure.
Anti-virulence product profile opens preventive therapy Product profile: –Anti-infective agent (not an antibiotic) which eradicates bacteria from the blood and leaves the commensal flora untouched. Product characteristics: –No induction of bacterial resistance. –No cross resistance with existing antibiotics. –Large gram- spectrum. –Large gram+ spectrum. –Gram- and gram+ combination. Product positioning: –Preventive therapy: compound will be used on its own.
Virulence inhibition: plan Mutagenesis of every coding sequence in the genome of a model bacteria. Identification of pathogen genes which are essential for producing systemic infection. Validation of these genes as therapeutic targets in experimental models of infection. Drug development based on molecules which inhibit these targets.
Drug discovery Objective: Discovery of new class of antibacterial molecules for selective inhibition of pathogenic bacteria Discovery process: Target identification (complete Tn mutagenesis of pathogenic Gram+ and Gram- pathogenic bacteria) and validation (KO mutants phenotype, protein function, consevation…) Rational drug design, virtual screening, hit identification
Anti-virulence product profile opens preventive therapy markets. Healthy individualsPatients at risk of infections Infected patients VACCINATIONANTIVIRULENCEANTIBIOTICS Specific to the risk of infection Haemophilus Meningococcus Pneumococcus E. Coli Streptococcus B Broad spectrum therapy Transplantees (kidney, bone marrow, liver, etc.) Intensive care patients Cancer patients undergoing treatment Kidney failure Corticoid treatment Pathogenic strains Prevention
MUTABILIS targets: conserved, required for virulence and systemic infection but not for commensalism. MUTABILIS developed assays needed for pharmacological studies. Efficacy prediction through animal model: targets functions are conserved in animal species and man. MUTABILIS using rational approaches did identify inhibitors molecules. Conclusions: virulence projects
Research area of interest: Comparative genomics + physiopathology of infectious diseases Interactions bacteria/host Metabolic pathways common to pathogenic bacteria conserved targets Bacterial membranes and pharmacology : why some drugs get through or not?