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1. Investigating Nrg1 Signaling in the Regenerating Axolotl Spinal Cord Using Multiplexed FISH

   https://doi.org/10.1002/dneu.22670  

   Freitas, Polina D.; Lovely, Alexander M.; Monaghan, James R. (March 2019, Developmental Neurobiology)

   Abstract Amputation of a salamander tail leads to functional spinal cord regeneration through activation of endogenous stem cells. Identifying the signaling pathways that control cell proliferation in these neural stem cells will help elucidate the mechanisms underlying the salamander’s regenerative ability. Here, we show that neuregulin 1 (Nrg1)/ErbB2 signaling is an important pathway in the regulation of neural stem cell proliferation in the spinal cord of the axolotl salamander (Ambystoma mexicanum). Simultaneous localization ofnrg1mRNA and Nrg1 protein was performed by utilizing a hybridization chain reaction fluorescencein situhybridization (FISH) methodology in tissue sections. Multiplexed FISH also permitted the phenotyping of multiple cell types on a single fixed section allowing the characterization of mRNA expression, protein expression, and tissue architecture. Pharmacological inhibition of ErbB2 showed that intact Nrg1/ErbB2 signaling is critical for adult homeostatic regeneration as well as for injury‐induced spinal cord regeneration. Overall, our results highlight the importance of the NRG1/ErbB2 signaling pathway in neural stem cell proliferation in the axolotl. 

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2. GRK2 kinases in the primary cilium initiate SMOOTHENED-PKA signaling in the Hedgehog cascade

   https://doi.org/10.1371/journal.pbio.3002685  

   Walker, Madison F; Zhang, Jingyi; Steiner, William; Ku, Pei-I; Zhu, Ju-Fen; Michaelson, Zachary; Yen, Yu-Chen; Lee, Annabel; Long, Alyssa B; Casey, Mattie J; et al (August 2024, PLOS Biology)

   Basler, Konrad (Ed.)

   During Hedgehog (Hh) signal transduction in development and disease, the atypical G protein-coupled receptor (GPCR) SMOOTHENED (SMO) communicates with GLI transcription factors by binding the protein kinase A catalytic subunit (PKA-C) and physically blocking its enzymatic activity. Here, we show that GPCR kinase 2 (GRK2) orchestrates this process during endogenous mouse and zebrafish Hh pathway activation in the primary cilium. Upon SMO activation, GRK2 rapidly relocalizes from the ciliary base to the shaft, triggering SMO phosphorylation and PKA-C interaction. Reconstitution studies reveal that GRK2 phosphorylation enables active SMO to bind PKA-C directly. Lastly, the SMO-GRK2-PKA pathway underlies Hh signal transduction in a range of cellular and in vivo models. Thus, GRK2 phosphorylation of ciliary SMO and the ensuing PKA-C binding and inactivation are critical initiating events for the intracellular steps in Hh signaling. More broadly, our study suggests an expanded role for GRKs in enabling direct GPCR interactions with diverse intracellular effectors. 

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3. A constitutively expressed fluorescent ubiquitination-based cell-cycle indicator (FUCCI) in axolotls for studying tissue regeneration

   https://doi.org/10.1242/dev.199637  

   Duerr, Timothy J.; Jeon, Eun Kyung; Wells, Kaylee M.; Villanueva, Antonio; Seifert, Ashley W.; McCusker, Catherine D.; Monaghan, James R. (March 2022, Development)

   ABSTRACT Regulation of cell cycle progression is essential for cell proliferation during regeneration following injury. After appendage amputation, the axolotl (Ambystoma mexicanum) regenerates missing structures through an accumulation of proliferating cells known as the blastema. To study cell division during blastema growth, we generated a transgenic line of axolotls that ubiquitously expresses a bicistronic version of the fluorescent ubiquitination-based cell-cycle indicator (FUCCI). We demonstrate near-ubiquitous FUCCI expression in developing and adult tissues, and validate these expression patterns with DNA synthesis and mitosis phase markers. We demonstrate the utility of FUCCI for live and whole-mount imaging, showing the predominantly local contribution of cells during limb and tail regeneration. We also show that spinal cord amputation results in increased proliferation at least 5 mm from the site of injury. Finally, we use multimodal staining to provide cell type information for cycling cells by combining fluorescence in situ hybridization, EdU click-chemistry and immunohistochemistry on a single FUCCI tissue section. This new line of animals will be useful for studying cell cycle dynamics using in situ endpoint assays and in vivo imaging in developing and regenerating animals. 

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4. Emergence of functional neuromuscular junctions in an engineered, multicellular spinal cord-muscle bioactuator

   https://doi.org/10.1063/1.5121440  

   Kaufman, C_D; Liu, S_C; Cvetkovic, C.; Lee, C_A; Naseri_Kouzehgarani, G.; Gillette, R.; Bashir, R.; Gillette, M_U (April 2020, APL Bioengineering)

   Three-dimensional (3D) biomimetic systems hold great promise for the study of biological systems in vitro as well as for the development and testing of pharmaceuticals. Here, we test the hypothesis that an intact segment of lumbar rat spinal cord will form functional neuromuscular junctions (NMJs) with engineered, 3D muscle tissue, mimicking the partial development of the peripheral nervous system (PNS). Muscle tissues are grown on a 3D-printed polyethylene glycol (PEG) skeleton where deflection of the backbone due to muscle contraction causes the displacement of the pillar-like “feet.” We show that spinal cord explants extend a robust and complex arbor of motor neurons and glia in vitro. We then engineered a “spinobot” by innervating the muscle tissue with an intact segment of lumbar spinal cord that houses the hindlimb locomotor central pattern generator (CPG). Within 7 days of the spinal cord being introduced to the muscle tissue, functional neuromuscular junctions (NMJs) are formed, resulting in the development of an early PNS in vitro. The newly innervated muscles exhibit spontaneous contractions as measured by the displacement of pillars on the PEG skeleton. Upon chemical excitation, the spinal cord-muscle system initiated muscular twitches with a consistent frequency pattern. These sequences of contraction/relaxation suggest the action of a spinal CPG. Chemical inhibition with a blocker of neuronal glutamate receptors effectively blocked contractions. Overall, these data demonstrate that a rat spinal cord is capable of forming functional neuromuscular junctions ex vivo with an engineered muscle tissue at an ontogenetically similar timescale. 

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5. Investigating the developmental onset of regenerative potential in the annelid Capitella teleta

   https://doi.org/10.1111/ivb.12411  

   Boyd, Alicia A; Seaver, Elaine C (December 2023, Invertebrate Biology)

   Abstract An animal's ability to regrow lost tissues or structures can vary greatly during its life cycle. The annelidCapitella teletaexhibits posterior, but not anterior, regeneration as juveniles and adults. In contrast, embryos display only limited replacement of specific tissues. To investigate when during development individuals ofC. teletabecome capable of regeneration, we assessed the extent to which larvae can regenerate. We hypothesized that larvae exhibit intermediate regeneration potential and demonstrate some features of juvenile regeneration, but do not successfully replace all lost structures. Both anterior and posterior regeneration potential of larvae were evaluated following amputation. We used several methods to analyze wound sites: EdU incorporation to assess cell proliferation; in situ hybridization to assess stem cell and differentiation marker expression; immunohistochemistry and phalloidin staining to determine presence of neurites and muscle fibers, respectively; and observation to assess re‐epithelialization and determine regrowth of structures. Wound healing occurred within 6 h of amputation for both anterior and posterior amputations. Cell proliferation at both wound sites was observed for up to 7 days following amputation. In addition, the stem cell markervasawas expressed at anterior and posterior wound sites. However, growth of new tissue was observed only in posterior amputations. Neurites from the ventral nerve cord were also observed at posterior wound sites. De novoashexpression in the ectoderm of anterior wound sites indicated neuronal cell specification, although the absence ofelavexpression indicated an inability to progress to neuronal differentiation. In rare instances, cilia and eyes re‐formed. Both amputations induced expanded expression of the myogenesis geneMyoDin preexisting tissues. Our results indicate that amputated larvae complete early, but not late, stages of regeneration, which indicates a gradual acquisition of regenerative ability inC. teleta. Furthermore, amputated larvae can metamorphose into burrowing juveniles, including those missing brain and anterior sensory structures. To our knowledge, this is the first study to assess regenerative potential of annelid larvae. 

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