Biofilm and hyphal inhibitory synergistic effects of phytoactives piperine and cinnamaldehyde against Candida albicans

Oral candidiasis, the most common mycotic infection of the human oral cavity is non-life-threatening yet, if untreated, may advance as systemic infections. The ability of Candida albicans to adapt sessile lifestyle imparts resistance to drugs and host immunity. Consequently, due to the limited effectiveness of conventional antifungal treatment, novel therapeutic strategies are required. In the present study, synergistic interaction of phytochemicals, piperine, and cinnamaldehyde against the biofilm and hyphal of C. albicans was evaluated. Minimum inhibitory concentration (MIC) and biofilm inhibitory concentration (BIC) of piperine and cinnamaldehyde against C. albicans were analyzed through microbroth dilution assay and crystal violet staining method, respectively. Combinatorial biofilm and hyphal inhibitory effect were investigated through checkerboard assay. In vitro results were validated through gene expression analysis. BIC of piperine and cinnamaldehyde was determined to be 32 mu g/ml and 64 mu g/ml, respectively. Interaction between these two phytocomponents was found to be synergistic and six different synergistic antibiofilm combinations were identified. Microscopic analysis of biofilm architecture also evidenced the biofilm and surface adherence inhibitory potential of piperine and cinnamaldehyde combinations. Phenotypic switching between yeast and hyphal morphological forms was influenced by synergistic combinations. qPCR analysis corroborated the results of in vitro activities. nrg1 and trp1, the negative transcriptional regulators of filamentous growth were upregulated whereas other genes that are involved in biofilm formation, filamentous growth, adhesion, etc. were found to be downregulated. These proficient phytochemical combinations provide a new therapeutic avenue for the treatment of biofilm-associated oral candidiasis and to combat the recurrent infections due to antibiotic resistance. Lay abstract Resistance to antibiotics and antifungals is seemingly increasing due to biofilm-associated infections. The present study incorporated antibiofilm therapy and a combinatorial approach to diminish the biofilm associated C. albicans infection.

Automated summary

This study evaluated the synergistic interaction of piperine and cinnamaldehyde against the biofilm and hyphal of Candida albicans. The results showed that the combination of these two phytochemicals had potential in inhibiting biofilm and hyphal formation. Gene expression analysis further validated the in vitro findings.