Santosh G. Pande scite author profile

Antibiotic resistance is one of the most challenging global health threats in our society. Antimicrobial peptides (AMPs) represent promising alternatives to conventional antibiotics for the treatment of drug-resistant infections. However, they are limited by their high manufacturing cost. Engineering living organisms represents a promising approach to produce such molecules in an inexpensive manner. Here, we genetically modified the yeast Pichia pastoris to produce the prototypical AMP apidaecin Ia using a fusion protein approach that leverages the beneficial properties ( e.g., stability) of human serum albumin. The peptide was successfully isolated from the fusion protein construct, purified, and demonstrated to have bioactivity against Escherichia coli. To demonstrate this approach as a manufacturing solution to AMPs, we scaled-up production in bioreactors to generate high AMP yields. We envision that this system could lead to improved AMP biomanufacturing platforms.

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LVIS553 Transcriptional Regulator Specifically Recognizes Novobiocin as an Effector Molecule

Pagliai

Gardner

Pande

et al. 2010

Journal of Biological Chemistry

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In this study we aimed to identify small molecules with high affinity involved in the allosteric regulation of LVIS553, a MarR member from Lactobacillus brevis ATCC367. Using high throughput screening, novobiocin was found to specifically bind LVIS553 with a K D ‫؍‬ 33.8 ؎ 2.9 M consistent with a biologically relevant ligand. Structure guided site-directed mutagenesis identified Lys 9 as a key residue in novobiocin recognition. The results found in vitro were correlated in vivo. An increased tolerance to the antibiotic was observed when LVIS553 and the downstream putative transport protein LVIS552 were either expressed in a low copy plasmid in L. brevis or as a single copy chromosomal insertion in Bacillus subtilis. We provide evidence that LVIS553 is involved in the specific regulation of a new mechanism of tolerance to novobiocin.

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Lactobacillus brevis responds to flavonoids through KaeR, a LysR‐type of transcriptional regulator

Pande

Pagliai

Gardner

et al. 2011

Molecular Microbiology

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SummaryThe ability of transcription factors to respond to flavonoids as signal molecules was investigated in Lactobacillus brevis. Through in vitro screening of a small library of flavonoids, LVIS1989 (KaeR), a LysRtype transcriptional regulator (LTTR), was identified as responsive to kaempferol. The modulation of KaeR activity by flavonoids was characterized in vivo and in vitro. DNase I footprint assays identified the binding of KaeR at two distinctive sites, one in the intergenic region between LVIS1988 and kaeR (-39 to +2) and another within LVIS1988 (-314 to -353, from kaeR translational start point). EMSA assays revealed that both binding sites are required for KaeR binding in vitro. Furthermore, KaeR-DNA interactions were stabilized by the addition of kaempferol (20 mM). In vivo qRT-PCR experiments performed in L. brevis confirmed that the divergently transcribed genes LVIS1988, LVIS1987 and LVIS1986 and kaeR are upregulated in the presence of kaempferol, indicating the role of KaeR as a transcriptional activator. Transcriptional lacZ fusions using Bacillus subtilis as a surrogate host showed that expression of kaeR and LVIS1988 were induced by the presence of the flavonoid. These results indicate that KaeR belongs to a small and poorly understood group of LTTRs that are positively autoregulated in the presence of a ligand.

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Santosh G. Pande

Yeast-Based Synthetic Biology Platform for Antimicrobial Peptide Production

LVIS553 Transcriptional Regulator Specifically Recognizes Novobiocin as an Effector Molecule

Lactobacillus brevis responds to flavonoids through KaeR, a LysR‐type of transcriptional regulator

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