Background:The detection of Mycobacterium tuberculosis (Mtb) specific human antibodies has been an important diagnostic aid in the diagnosis of tuberculosis (TB) cases with smear-negative sputum samples, especially for the screening of highrisk population. This study focused on the analysis and comparison of the four potential Mtb-secreted proteins (ESAT6, CFP10, Ag85B, Hsp16.3) and the fusion protein Ag85B-Hsp16.3 as new markers in the serodiagnosis between active TB and latent TB infection (LTBI). Methods: These five recombinant proteins were produced and used in optimized ELISA to detect IgG serum antibodies against the four secreted proteins. The capacity of identifying infection was evaluated either in active TB patients or LTBI individuals, which was compared with the control groups consisting of hospitalized non-TB individuals.
Results:The results showed that Ag85B-Hsp16.3/ESAT6 and Hsp16.3/ESAT6 were the best-associated antigens for serology diagnosis of the active TB and LTBI individuals because of their specificity, sensitivity, YI values, and positive rates, respectively. ELISA test demonstrated that 41.67% (25/60) of blood donors respond to Ag85B-Hsp16.3/ESAT6. The consistency of this positive respond with clinical diagnosis almost reached 84% (21/25). Conclusion: Thus, a combined test of multiple Mtb-secreted proteins Ag85B, Hsp16.3, and ESAT6 may be the ascendant preliminary screening antigens for active TB or LTBI patients.
Several derivatives of γ-aminopropyl silatrane containing acyclovir in their molecular structure were synthesized and evaluated for their immunomodulatory and antiviral activities. The structures of all these derivatives were confirmed by mass spectra, IR, and (1) H NMR. Based on WST-1 assay in vitro, these compounds could stimulate proliferation of splenic lymphocytes at certain concentrations. Furthermore, compound 3d could also potentiate the expression of IFN-γ, IL-2, CD4(+) , CD8(+) , and CD4(+) /CD8(+) in vivo. Our results show that these derivatives possess antiviral activity against herpes simplex viruses with a similar potency to acyclovir without a cellular immune response.
The resuscitation-promoting factor (Rpf), a secretory protein first reported in Micrococcus luteus, plays a critical role in mycobacterial survival and infection. There are five functionally redundant Rpf-like proteins identified in M. tuberculosis (Mtb). All these Rpfs share a conserved Rpf domain (Rpfd) composed of approximately 70 amino acids, which possesses the same biological functions as the full-length Rpf protein. Glutamic acid at position 54 in Rpfd (E54) has been implicated in mediating multiple physiological processes, and a single amino acid substitution at residue E54 can affect the protein biological activity. In order to determine the effects of different amino acid substitutions of E54 in Rpfd on its immunogenic activity, we generated three recombinant Rpfd mutants, Rpfd1 (E54K), Rpfd2 (E54A) and Rpfd3 (E54K and D48A), based on T-cell epitope prediction and tested their potential protective/therapeutic effects against Mtb in mice. Our results demonstrated that replacement of E54 by different amino acids in Rpfd distinctively influenced its resuscitation-promoting activities and Th1-type immune responses induced in mice. Administration of Rpfd2 mutant enhanced Th1-type cellular responses (IFN-γ and IL-2) in mice (P < 0.05, Rpfd2 versus control) and provided effective protection against Mtb in mice by significantly inhibiting the growth of Mtb during the initial stage of infection. Four weeks after the challenge, the slightest pathological injury in lung was observed in the Rpfd2-immunized group among all three Rfpd mutant-immunized groups. Furthermore, Rpfd2 therapy significantly decreased the bacterial load in lung and alleviated histopathological damage in Mtb-infected mice. Together, our results suggest Rpfd2 as a novel effective vaccine candidate against Mtb.
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