Characterization of the Structural Requirements for the NADase Activity of Bacterial Toll/IL-1R domains in a Course-based Undergraduate Research Experience.
Tamara Vallejo-SchmidtCheyenne PalmTrinity ObiorahAbra Rachida KoudjraKatrina SchmidtAlexis H ScudderEber Guzman-CruzLenora Paige IngramBritney C EricksonVictoria AkingbehinTerra RiddickSarah HamiltonTahreem RiazZachary AlexanderJasmine T AndersonCharlotte BaderPhoebe H CalkinsSumra S ChaudhryHaley CollinsMaimunah ContehTope A DadaJaira DavidDaniel FallahRaquel De LeonRachel DuffItohan R EromoseleJaliyl K JonesNastaran KeshmiriMark A MercantiJaine Onwezi-NwugwoMichael A OjoEmily R PascoeAriana M PoteatSarah E PriceDalton RiedlbauerLouis T A RollePayton ShoemakerAlanna StefanoMichaela K SterlingSamina SultanaLindsey ToneygayAlexa N WilliamsSheeram NallarJohn E WeldonGreg A SnyderMichelle L D SnyderPublished in: ImmunoHorizons (2024)
TLRs initiate innate immune signaling pathways via Toll/IL-1R (TIR) domains on their cytoplasmic tails. Various bacterial species also express TIR domain-containing proteins that contribute to bacterial evasion of the innate immune system. Bacterial TIR domains, along with the mammalian sterile α and TIR motif-containing protein 1 and TIRs from plants, also have been found to exhibit NADase activity. Initial X-ray crystallographic studies of the bacterial TIR from Acinetobacter baumannii provided insight into bacterial TIR structure but were unsuccessful in cocrystallization with the NAD+ ligand, leading to further questions about the TIR NAD binding site. In this study, we designed a Course-Based Undergraduate Research Experience (CURE) involving 16-20 students per year to identify amino acids crucial for NADase activity of A. baumannii TIR domain protein and the TIR from Escherichia coli (TIR domain-containing protein C). Students used structural data to identify amino acids that they hypothesized would play a role in TIR NADase activity, and created plasmids to express mutated TIRs through site-directed mutagenesis. Mutant TIRs were expressed, purified, and tested for NADase activity. The results from these studies provide evidence for a conformational change upon NAD binding, as was predicted by recent cryogenic electron microscopy and hydrogen-deuterium exchange mass spectrometry studies. Along with corroborating recent characterization of TIR NADases that could contribute to drug development for diseases associated with dysregulated TIR activity, this work also highlights the value of CURE-based projects for inclusion of a diverse group of students in authentic research experiences.
Keyphrases
- escherichia coli
- amino acid
- mass spectrometry
- acinetobacter baumannii
- multidrug resistant
- immune response
- electron microscopy
- signaling pathway
- pseudomonas aeruginosa
- drug resistant
- high resolution
- binding protein
- computed tomography
- magnetic resonance
- case control
- transcription factor
- crispr cas
- deep learning
- dna binding
- molecular dynamics
- biofilm formation
- high school