Publications by authors named "Abbey L Perl"

Desmosomes are relatives of ancient cadherin-based junctions, which emerged late in evolution to ensure the structural integrity of vertebrate tissues by coupling the intermediate filament cytoskeleton to cell-cell junctions. Their ability to dynamically counter the contractile forces generated by actin-associated adherens junctions is particularly important in tissues under high mechanical stress, such as the skin and heart. Much more than the simple cellular 'spot welds' depicted in textbooks, desmosomes are in fact dynamic structures that can sense and respond to changes in their mechanical environment and external stressors like ultraviolet light and pathogens.

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Critical for the maintenance of epidermal integrity and function are attachments between intermediate filaments (IF) and intercellular junctions called desmosomes. The desmosomal cytoplasmic plaque protein desmoplakin (DP) is essential for anchoring IF to the junction. DP-IF interactions are regulated by a phospho-regulatory motif within the DP C-terminus controlling keratinocyte intercellular adhesion.

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Article Synopsis
  • Darier, Hailey-Hailey, and Grover diseases are rare skin conditions characterized by defects in cell-cell adhesion and desmosome organization, sharing common underlying mechanisms despite different causes.
  • RNA-seq analysis of skin samples revealed significant overlap in transcriptomic profiles among these diseases, distinguishing them from other inflammatory skin conditions like atopic dermatitis and psoriasis.
  • The study identified a unique downregulation of actin organization pathways in these diseases, linked to decreased SRF/MRTF activity, suggesting a potential target for further research and treatment approaches.
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Desmosomal cadherins are a recent evolutionary innovation that make up the adhesive core of highly specialized intercellular junctions called desmosomes. Desmosomal cadherins, which are grouped into desmogleins and desmocollins, are related to the classical cadherins, but their cytoplasmic domains are tailored for anchoring intermediate filaments instead of actin to sites of cell-cell adhesion. The resulting junctions are critical for resisting mechanical stress in tissues such as the skin and heart.

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Impairment of protein phosphatases, including the family of serine/threonine phosphatases designated PP2A, is essential for the pathogenesis of many diseases, including cancer. The ability of PP2A to dephosphorylate hundreds of proteins is regulated by over 40 specificity-determining regulatory "B" subunits that compete for assembly and activation of heterogeneous PP2A heterotrimers. Here, we reveal how a small molecule, DT-061, specifically stabilizes the B56α-PP2A holoenzyme in a fully assembled, active state to dephosphorylate selective substrates, such as its well-known oncogenic target, c-Myc.

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Genomic replication is a highly regulated process and represents both a potential benefit and liability to rapidly dividing cells; however, the precise post-translational mechanisms regulating genomic replication are incompletely understood. Protein phosphatase 2A (PP2A) is a serine/threonine phosphatase that regulates a diverse array of cellular processes. Here, utilizing both a gain-of-function chemical biology approach and loss-of-function genetic approaches to modulate PP2A activity, we found that PP2A regulates DNA replication.

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Article Synopsis
  • Scientists found that a protein called RABL6A helps pancreatic neuroendocrine tumors (PNETs) grow by turning on another pathway called AKT/mTOR.
  • When they stopped RABL6A in PNET cells, it made the cancer cells stop growing and changed how AKT was activated.
  • This study suggests that targeting RABL6A and a protein called PP2A could help make new cancer treatments for PNETs and other cancers.
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The study of bacteriophages infecting the model organism Bacillus subtilis has provided an abundance of general knowledge and a platform for advances in biotechnology. Here, we announce the annotated genome of CampHawk, a B. subtilis phage.

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Bacillus subtilis is a ubiquitous Gram-positive model organism. Here, we describe the complete genome of B. subtilus myophage Grass.

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