Abstract

Infections due to Haemophilus influenzae result in tremendous global morbidity. The conjugated vaccines against H. influenzae type b (Hib) have dramatically reduced the incidence of invasive Hib disease in the routine immunization of infants. The several proteins used as vaccine candidates for this pathogen, but they don't produce efficient immune in animal models against all strains of H. influenzae. This study aimed to determine the diversity of hpd gene nucleotide sequences of Iranian native clinical isolates of H. influenzae as a native vaccine candidate compared to standard strains.Twenty isolates of H. influenzae recovered from different clinical specimens of patients admitted to Milad and Imam Khomeini hospitals, Tehran, Iran. Then, isolates detected and identified as H. influenzae using biochemical tests, and further confirmation through omp6 gene PCR. The hpd gene was amplified by PCR using gene-specific primers, and the amplicons digested with EcoR1. For four isolates, the Amplicon of hpd gene sequenced, and the sequences aligned with sequences harbored in GenBank. Subsequently, sequences were submitted to the EMBL site (http://www.ebi.ac.uk/embl/).EcoR1 restriction enzyme pattern was the same among the 19 clinical isolates, and only one isolate was different. That different one with 3 out of 19 isolates were sequenced. The results showed that the nucleotide sequences and the deduced amino acid sequences for protein D in clinical isolates were highly conserved with similarities >95%.In conclusion, regarding high similarity up to 99% in clinical isolates, protein D can be a novel vaccine candidate against all types of H. influenza from Iran. This finding should be proved with more isolates, and also, evaluate the immunological features of protein D in animal models.

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