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1. A Physio-Logging Journey: Heart Rates of the Emperor Penguin and Blue Whale

   https://doi.org/10.3389/fphys.2021.721381  

   Ponganis, Paul J. (August 2021, Frontiers in Physiology)

   Physio-logging has the potential to explore the processes that underlie the dive behavior and ecology of marine mammals and seabirds, as well as evaluate their adaptability to environmental change and other stressors. Regulation of heart rate lies at the core of the physiological processes that determine dive capacity and performance. The bio-logging of heart rate in unrestrained animals diving at sea was infeasible, even unimaginable in the mid-1970s. To provide a historical perspective, I review my 40-year experience in the development of heart rate physio-loggers and the evolution of a digital electrocardiogram (ECG) recorder that is still in use today. I highlight documentation of the ECG and the interpretation of heart rate profiles in the largest of avian and mammalian divers, the emperor penguin and blue whale. 

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2. Mechanisms of D2R signaling in the blood brain barrier that regulates courtship in Drosophila melanogaster

   Gautam, Sumit.; Love, Cameron R.; Dauwalder, Brigitte (March 2023, Drosophila Research Conference)

   Abstract Flies have an open circulatory system and their Blood Brain Barrier (BBB) surrounds the brain like a tight cap. The fly BBB consists of two layers of glial cells. The outer layer is formed by the Perineurial Glia (PG). The inner BBB layer consists of the Subperineurial Glia (SPG) that form the tight barrier that, like its mammalian counterpart, acts both as a diffusion and a xenobiotic transport barrier. Underneath the SPG lie the neuronal cell bodies. The Drosophila BBB shows the same barrier properties as the mammalian barrier and profiling of Drosophila BBB cells has shown a high degree of molecular conservation. We have previously shown that the Drosophila BBB plays a sex-specific role in regulating behavior. Conditional adult feminization of SPG cells in otherwise normal males leads to significantly reduced courtship. In agreement with this, in a microarray screen of isolated SPG cells, we identified a number of male-enriched transcripts. One of them encodes the dopamine-2 like receptor (D2R). We have found that conditional knockdown of D2R in adult male Drosophila SPG decreases courtship. Likewise, D2R mutant males have courtship defects. They can be rescued by expression of wildtype D2R in the SPG cells of mature adult males, demonstrating a physiological requirement for the receptor in these cells for courtship control4. The D2R receptor is highly conserved. It has been found that it can act via biased signaling (through G protein or b-arrestin) in mammals. We have previously found that signaling through Gao and arrestin in the BBB is required for proper male courtship. Although D2R is best known for signaling through cAMP, we have not found a requirement for cAMP/PKA signaling for courtship. To investigate the signaling pathways downstream of D2R that are responsible for courtship control we have mutagenized D2R proteins and examined their ability to rescue D2R mutants. Based on Peterson et al. we designed proteins capable of G-protein or arrestin biased signaling, respectively, and tested their ability to rescue the courtship defects of D2R mutants. Our data suggest that D2R signaling through b-arrestin is a major mediator of BBB courtship control. 

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3. Sulforaphane prevents age‐associated cardiac and muscular dysfunction through Nrf2 signaling

   https://doi.org/10.1111/acel.13261  

   Bose, Chhanda; Alves, Ines; Singh, Preeti; Palade, Philip T.; Carvalho, Eugenia; Børsheim, Elisabet; Jun, Se‐Ran; Cheema, Amrita; Boerma, Marjan; Awasthi, Sanjay; et al (November 2020, Aging Cell)

   Abstract Age‐associated mitochondrial dysfunction and oxidative damage are primary causes for multiple health problems including sarcopenia and cardiovascular disease (CVD). Though the role of Nrf2, a transcription factor that regulates cytoprotective gene expression, in myopathy remains poorly defined, it has shown beneficial properties in both sarcopenia and CVD. Sulforaphane (SFN), a natural compound Nrf2‐related activator of cytoprotective genes, provides protection in several disease states including CVD and is in various stages of clinical trials, from cancer prevention to reducing insulin resistance. This study aimed to determine whether SFN may prevent age‐related loss of function in the heart and skeletal muscle. Cohorts of 2‐month‐old and 21‐ to 22‐month‐old mice were administered regular rodent diet or diet supplemented with SFN for 12 weeks. At the completion of the study, skeletal muscle and heart function, mitochondrial function, and Nrf2 activity were measured. Our studies revealed a significant drop in Nrf2 activity and mitochondrial functions, together with a loss of skeletal muscle and cardiac function in the old control mice compared to the younger age group. In the old mice, SFN restored Nrf2 activity, mitochondrial function, cardiac function, exercise capacity, glucose tolerance, and activation/differentiation of skeletal muscle satellite cells. Our results suggest that the age‐associated decline in Nrf2 signaling activity and the associated mitochondrial dysfunction might be implicated in the development of age‐related disease processes. Therefore, the restoration of Nrf2 activity and endogenous cytoprotective mechanisms by SFN may be a safe and effective strategy to protect against muscle and heart dysfunction due to aging. 

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4. Microglial Piezo1 mechanosensitive channel as a therapeutic target in Alzheimer’s disease

   https://doi.org/10.3389/fncel.2024.1423410  

   Ikiz, Erol D; Hascup, Erin R; Bae, Chilman; Hascup, Kevin N (June 2024, Frontiers in Cellular Neuroscience)

   Quadri, Zainuddin (Ed.)

   Microglia are the resident macrophages of the central nervous system (CNS) that control brain development, maintain neural environments, respond to injuries, and regulate neuroinflammation. Despite their significant impact on various physiological and pathological processes across mammalian biology, there remains a notable gap in our understanding of how microglia perceive and transmit mechanical signals in both normal and diseased states. Recent studies have revealed that microglia possess the ability to detect changes in the mechanical properties of their environment, such as alterations in stiffness or pressure. These changes may occur during development, aging, or in pathological conditions such as trauma or neurodegenerative diseases. This review will discuss microglial Piezo1 mechanosensitive channels as potential therapeutic targets for Alzheimer’s disease (AD). The structure, function, and modulation of Piezo1 will be discussed, as well as its role in facilitating microglial clearance of misfolded amyloid-β (Aβ) proteins implicated in the pathology of AD. 

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5. ROS are evolutionary conserved cell-to-cell stress signals

   https://doi.org/10.1073/pnas.2305496120  

   Fichman, Yosef; Rowland, Linda; Oliver, Melvin J; Mittler, Ron (August 2023, Proceedings of the National Academy of Sciences)

   Cell-to-cell communication is fundamental to multicellular organisms and unicellular organisms living in a microbiome. It is thought to have evolved as a stress- or quorum-sensing mechanism in unicellular organisms. A unique cell-to-cell communication mechanism that uses reactive oxygen species (ROS) as a signal (termed the “ROS wave”) was identified in flowering plants. This process is essential for systemic signaling and plant acclimation to stress and can spread from a small group of cells to the entire plant within minutes. Whether a similar signaling process is found in other organisms is however unknown. Here, we report that the ROS wave can be found in unicellular algae, amoeba, ferns, mosses, mammalian cells, and isolated hearts. We further show that this process can be triggered in unicellular and multicellular organisms by a local stress or H₂O₂treatment and blocked by the application of catalase or NADPH oxidase inhibitors and that in unicellular algae it communicates important stress–response signals between cells. Taken together, our findings suggest that an active process of cell-to-cell ROS signaling, like the ROS wave, evolved before unicellular and multicellular organisms diverged. This mechanism could have communicated an environmental stress signal between cells and coordinated the acclimation response of many different cells living in a community. The finding of a signaling process, like the ROS wave, in mammalian cells further contributes to our understanding of different diseases and could impact the development of drugs that target for example cancer or heart disease. 

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