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1. Frontiers in mechanobiology and mechanomedicine

   https://doi.org/10.1007/s44258-025-00071-5  

   Hwang, Priscilla_Y; Mistriotis, Panagiotis; Cai, Haogang; Liu, Longwei; Zhang, Bo; Smith, Quinton; Ferruzzi, Jacopo; Wang, Peter_Yingxiao; Li, Song (November 2025, Med-X)

   Abstract This perspective derives from the presentations and discussions on mechanobiology at the 2025 Cellular and Molecular Bioengineering Conference in San Diego. Mechanobiological processes play critical roles in tissue development, regeneration, and disease progression. Recent advances in engineering, biology, and medicine have enabled the translation of mechanobiology discoveries into clinical practice, giving rise to the emerging field of mechanomedicine. The development and application of engineering technology and tools have provided new insights into how mechanical cues regulate immune cell response, stem cell differentiation, cell migration, and cell metabolism. In this perspective, we highlight exciting discoveries and innovative tools in mechanobiology research, and discuss challenges that must be overcome to truly bridge the gap between mechanobiology and mechanomedicine. Graphical Abstract 

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2. Regeneration and defense: unveiling the molecular interplay in plants

   https://doi.org/10.1111/nph.70171  

   Xu, Dawei; Yang, Li (April 2025, New Phytologist)

   Summary In both plants and animals, tissue or organ regeneration typically follows wounding, which also activates defense responses against pathogenic microbes and herbivores. Both intrinsic and environmental cues guide the molecular decisions between regeneration and defense. In animal studies, extensive research has highlighted the role of various microbes – including pathogenic, commensal, and beneficial species – in influencing the signaling interplay between immunity and regeneration. Conversely, most plant regeneration studies are conducted under sterile conditions, which leaves a gap in our understanding of how plant innate immunity influences regeneration pathways. Recent findings have begun to elucidate the roles of key defense pathways in modulating plant regeneration and the crosstalk between these two processes. These studies also explore how microbes might influence the molecular choice between defense and regeneration in plants. This review examines the molecular mechanisms governing the balance between plant regeneration and innate immunity, with a focus on the emerging role of aging and microbial interactions in shaping these processes. 

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3. Stem cells, cell therapies, and bioengineering in lung biology and diseases 2023

   https://doi.org/10.1152/ajplung.00052.2024  

   Hynds, Robert E; Magin, Chelsea M; Ikonomou, Laertis; Aschner, Yael; Beers, Michael F; Burgess, Janette K; Heise, Rebecca L; Hume, Patrick S; Krasnodembskaya, Anna D; Mei, Shirley_H J; et al (September 2024, American Journal of Physiology-Lung Cellular and Molecular Physiology)

   Repair and regeneration of a diseased lung using stem cells or bioengineered tissues is an exciting therapeutic approach for a variety of lung diseases and critical illnesses. Over the past decade, increasing evidence from preclinical models suggests that mesenchymal stromal cells, which are not normally resident in the lung, can be used to modulate immune responses after injury, but there have been challenges in translating these promising findings to the clinic. In parallel, there has been a surge in bioengineering studies investigating the use of artificial and acellular lung matrices as scaffolds for three-dimensional lung or airway regeneration, with some recent attempts of transplantation in large animal models. The combination of these studies with those involving stem cells, induced pluripotent stem cell derivatives, and/or cell therapies is a promising and rapidly developing research area. These studies have been further paralleled by significant increases in our understanding of the molecular and cellular events by which endogenous lung stem and/or progenitor cells arise during lung development and participate in normal and pathological remodeling after lung injury. For the 2023 Stem Cells, Cell Therapies, and Bioengineering in Lung Biology and Diseases Conference, scientific symposia were chosen to reflect the most cutting-edge advances in these fields. Sessions focused on the integration of “omics” technologies with function, the influence of immune cells on regeneration, and the role of the extracellular matrix in regeneration. The necessity for basic science studies to enhance fundamental understanding of lung regeneration and to design innovative translational studies was reinforced throughout the conference. 

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4. The Third Annual Symposium of the Midwest Aging Consortium

   https://doi.org/10.1093/gerona/glad239  

   Keller, Andrea; Bai, Hua; Budinger, Scott; Eliazer, Susan; Hansen, Malene; Konopka, Adam R.; Morales-Nebreda, Luisa; Najt, Charles P.; Prahlad, Veena; Victorelli, Stella; et al (October 2023, The Journals of Gerontology: Series A)

   Abstract The geroscience hypothesis suggests that addressing the fundamental mechanisms driving aging biology will prevent or mitigate the onset of multiple chronic diseases, for which the largest risk factor is advanced age. Research that investigates the root causes of aging is therefore of critical importance given the rising healthcare burden attributable to age-related diseases. The third annual Midwest Aging Consortium symposium was convened as a showcase of such research performed by investigators from institutions across the Midwestern United States. This report summarizes the work presented during a virtual conference across topics in aging biology, including immune function in the lung—particularly timely given the Corona Virus Immune Disease-2019 pandemic—along with the role of metabolism and nutrient-regulated pathways in cellular function with age, the influence of senescence on stem cell function and inflammation, and our evolving understanding of the mechanisms underlying observation of sex dimorphism in aging-related outcomes. The symposium focused on early-stage and emerging investigators, while including keynote presentations from leaders in the biology of aging field, highlighting the diversity and strength of aging research in the Midwest. 

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5. Extraordinary model systems for regeneration

   https://doi.org/10.1242/dev.203083  

   Accorsi, Alice; Guo, Longhua; Marshall, Wallace F; Mommersteeg, Mathilda_T M; Nakajima, Yu-ichiro (October 2024, Development)

   ABSTRACT Regeneration is the remarkable phenomenon through which an organism can regrow lost or damaged parts with fully functional replacements, including complex anatomical structures, such as limbs. In 2019, Development launched its ‘Model systems for regeneration’ collection, a series of articles introducing some of the most popular model organisms for studying regeneration in vivo. To expand this topic further, this Perspective conveys the voices of five expert biologists from the field of regenerative biology, each of whom showcases some less well-known, but equally extraordinary, species for studying regeneration. 

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