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1. Global Transcriptome Analysis of Rice Seedlings in Response to Extracellular ATP

   https://doi.org/10.1016/j.rsci.2025.03.002  

   Lim, Chaemyeong; Lee, Sae Hyun; Lee, Haeun; Park, So-Yon; Kang, Kiyoon; Yoon, Hyeryung; Yang, Tae-Jin; Stacey, Gary; Paek, Nam-Chon; Cho, Sung-Hwan (May 2025, Rice Science)

   Herbivorous insects and pathogens cause severe damage to rice tissues, affecting yield and grain quality. Damaged cells trigger downstream defense responses through various signals. Extracellular ATP (eATP), a signaling molecule released during mechanical cell damage, is considered a constitutive damage-associated molecular pattern (DAMP), which is crucial for initiating plant defense responses. Thus, understanding how rice plants cope with DAMPs such as eATP is essential. Here, we found that exogenous ATP affected rice growth and development, cell wall composition, chloroplast development, and cell death. Subsequent global transcriptome analysis revealed that several pathways were involved in the eATP response, including genes related to cell surface receptors, cell wall organization, chlorophyll biosynthesis, heat and temperature stimulation, epigenetic regulation, and reactive oxygen species metabolism. Cell surface receptors, including members of the lectin receptor-like kinases (LecRKs), were found to participate in the eATP response. We further investigated ATP-induced genes in T-DNA activation mutants of OsLecRKs, demonstrating their involvement in eATP signaling in rice. This study confirms a DAMP-mediated transcriptional response in plants and provides novel candidates for advancing resistant rice breeding against insect herbivores and pathogens. 

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2. A kinase to cytokine explorer to identify molecular regulators and potential therapeutic opportunities

   https://doi.org/10.7554/eLife.91472.3  

   Chan, Marina; Kang, Yuqi; Osborne, Shannon; Zager, Michael; Gujral, Taranjit S (February 2024, eLife)

   Cytokines and chemokines are secreted proteins that regulate various biological processes, such as inflammation, immune response, and cell differentiation. Therefore, disruption of signaling pathways involving these proteins has been linked to a range of diseases, including cancer. However, targeting individual cytokines, chemokines, or their receptors is challenging due to their regulatory redundancy and incomplete understanding of their signaling networks. To transform these difficult-to-drug targets into a pharmacologically manageable class, we developed a web-based platform called KinCytE. This platform was designed to link the effects of kinase inhibitors, a well-established class of drugs, with cytokine and chemokine release and signaling networks. The resulting KinCytE platform enables users to investigate protein kinases that regulate specific cytokines or chemokines, generate a ranked list of FDA-approved kinase inhibitors that affect cytokine/chemokine activity, and explore and visualize cytokine signaling network thus facilitating drugging this challenging target class. KinCytE is freely accessible viahttps://atlas.fredhutch.org/kincyte. 

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3. Antennal transcriptome analysis reveals sensory receptors potentially associated with host detection in the livestock pest Lucilia cuprina

   https://doi.org/10.1186/s13071-024-06391-6  

   Wulff, Juan_P; Hickner, Paul_V; Watson, David_W; Denning, Steven_S; Belikoff, Esther_J; Scott, Maxwell_J (July 2024, Parasites & Vectors)

   Abstract BackgroundLucilia cuprina(Wiedemann, 1830) (Diptera: Calliphoridae) is the main causative agent of flystrike of sheep in Australia and New Zealand. Female flies lay eggs in an open wound or natural orifice, and the developing larvae eat the host’s tissues, a condition called myiasis. To improve our understanding of host-seeking behavior, we quantified gene expression in male and female antennae based on their behavior. MethodsA spatial olfactometer was used to evaluate the olfactory response ofL. cuprinamated males and gravid females to fresh or rotting beef. Antennal RNA-Seq analysis was used to identify sensory receptors differentially expressed between groups. ResultsLucilia cuprinafemales were more attracted to rotten compared to fresh beef (> fivefold increase). However, males and some females did not respond to either type of beef. RNA-Seq analysis was performed on antennae dissected from attracted females, non-attracted females and males. Transcripts encoding sensory receptors from 11 gene families were identified above a threshold (≥ 5 transcript per million) including 49 ATP-binding cassette transporters (ABCs), two ammonium transporters (AMTs), 37 odorant receptors (ORs), 16 ionotropic receptors (IRs), 5 gustatory receptors (GRs), 22 odorant-binding proteins (OBPs), 9 CD36-sensory neuron membrane proteins (CD36/SNMPs), 4 chemosensory proteins (CSPs), 4 myeloid lipid-recognition (ML) and Niemann-Pick C2 disease proteins (ML/NPC2), 2pickpocketreceptors (PPKs) and 3 transient receptor potential channels (TRPs). Differential expression analyses identified sex-biased sensory receptors. ConclusionsWe identified sensory receptors that were differentially expressed between the antennae of both sexes and hence may be associated with host detection by female flies. The most promising for future investigations were as follows: an odorant receptor (LcupOR46) which is female-biased inL. cuprinaandCochliomyia hominivoraxCoquerel, 1858; an ABC transporter (ABC G23.1) that was the sole sensory receptor upregulated in the antennae of females attracted to rotting beef compared to non-attracted females; a female-biased ammonia transporter (AMT_Rh50), which was previously associated with ammonium detection inDrosophila melanogasterMeigen, 1830. This is the first report suggesting a possible role for ABC transporters inL. cuprinaolfaction and potentially in other insects. Graphical Abstract 

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4. Synthetic Genes For Dynamic Regulation Of DNA‐Based Receptors

   https://doi.org/10.1002/ange.202319382  

   Sorrentino, Daniela; Ranallo, Simona; Nakamura, Eiji; Franco, Elisa; Ricci, Francesco (April 2024, Angewandte Chemie)

   Abstract We present a strategy to control dynamically the loading and release of molecular ligands from synthetic nucleic acid receptors using in vitro transcription. We demonstrate this by engineering three model synthetic DNA‐based receptors: a triplex‐forming DNA complex, an ATP‐binding aptamer, and a hairpin strand, whose ability to bind their specific ligands can be cotranscriptionally regulated (activated or inhibited) through specific RNA molecules produced by rationally designed synthetic genes. The kinetics of our DNA sensors and their genetically generated inputs can be captured using differential equation models, corroborating the predictability of the approach used. This approach shows that highly programmable nucleic acid receptors can be controlled with molecular instructions provided by dynamic transcriptional systems, illustrating their promise in the context of coupling DNA nanotechnology with biological signaling. 

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5. Molecular characterization of frog vocal neurons using constellation pharmacology

   https://doi.org/10.1152/jn.00105.2020  

   Inagaki, Ryota Thomas; Raghuraman, Shrinivasan; Chase, Kevin; Steele, Theresa; Zornik, Erik; Olivera, Baldomero M; Yamaguchi, Ayako (June 2020, Journal of Neurophysiology)

   null (Ed.)

   Identification and characterization of neuronal cell classes in motor circuits are essential for understanding the neural basis of behavior. It is a challenging task, especially in a non-genetic model organism, to identify cell-specific expression of functional macromolecules. Here, we performed constellation pharmacology, calcium imaging of dissociated neurons to pharmacologically identify functional receptors expressed by vocal neurons in adult male and female African clawed frogs, Xenopus laevis. Previously we identified a population of vocal neurons called fast trill neurons (FTNs) in the amphibian parabrachial nucleus (PB) that express NMDA receptors and GABA and/or glycine receptors. Using constellation pharmacology, we identified four cell classes of putative fast trill neurons (pFTNs, responsive to both NMDA and GABA/glycine applications). We discovered that some pFTNs responded to the application of substance P (SP), acetylcholine (ACh), or both. Electrophysiological recordings obtained from FTNs using an ex vivo preparation verified that SP and/or ACh depolarize FTNs. Bilateral injection of ACh, SP, or their antagonists into PBs showed that ACh receptors are not sufficient but necessary for vocal production, and SP receptors play a role in shaping the morphology of vocalizations. Additionally, we discovered that the PB of adult female X. laevis also contains all the subclasses of neurons at a similar frequency as in males, despite their sexually distinct vocalizations. These results reveal novel neuromodulators that regulate X. laevis vocal production, and demonstrate the power of constellation pharmacology in identifying the neuronal subtypes marked by functional expression of cell-specific receptors in non-genetic model organisms. 

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