Acetylation-induced proteasomal degradation of the activated glucocorticoid receptor limits hormonal signaling.

Glucocorticoid (GC) signaling is essential for mounting a stress response, however, chronic stress or prolonged GC therapy downregulates the GC receptor (GR), leading to GC resistance. Regulatory mechanisms that refine this equilibrium are not well understood. Here, we identify seven lysine acetylation sites in the amino terminal domain of GR, with lysine 154 (Lys154) in the AF-1 region being the dominant acetyl-acceptor. GR-Lys154 acetylation is mediated by p300/CBP in the nucleus in an agonist-dependent manner and correlates with transcriptional activity. Deacetylation by NAD+-dependent SIRT1 facilitates dynamic regulation of this mark. Notably, agonist-binding to both wild-type GR and an acetylation-deficient mutant elicits similar short-term target gene expression. In contrast, upon extended treatment, the polyubiquitination of the acetylation-deficient GR mutant is impaired resulting in higher protein stability, increased chromatin association and prolonged transactivation. Taken together, reversible acetylation fine-tunes duration of the GC response by regulating proteasomal degradation of activated GR.

A Fully Integrated Miniaturized Optical Biosensor for Fast and Multiplexing Plasmonic Detection of High- and Low-Molecular-Weight Analytes.

Optical biosensors based on plasmonic sensing schemes combine high sensitivity and selectivity with label-free detection. However, the use of bulky optical components is still hampering the possibility of obtaining miniaturized systems required for analysis in real settings. Here, a fully miniaturized optical biosensor prototype based on plasmonic detection is demonstrated, which enables fast and multiplex sensing of analytes with high- and low molecular weight (80 000 and 582 Da) as quality and safety parameters for milk: a protein (lactoferrin) and an antibiotic (streptomycin). The optical sensor is based on the smart integration of: i) miniaturized organic optoelectronic devices used as light-emitting and light-sensing elements and ii) a functionalized nanostructured plasmonic grating for highly sensitive and specific localized surface plasmon resonance (SPR) detection. The sensor provides quantitative and linear response reaching a limit of detection of 10-4 refractive index units once it is calibrated by standard solutions. Analyte-specific and rapid (15 min long) immunoassay-based detection is demonstrated for both targets. By using a custom algorithm based on principal-component analysis, a linear dose-response curve is constructed which correlates with a limit of detection (LOD) as low as 3.7 µg mL-1 for lactoferrin, thus assessing that the miniaturized optical biosensor is well-aligned with the chosen reference benchtop SPR method.

The effectiveness of a short-term DBT skills group in a 'real-world' clinical setting.

OBJECTIVE: This study evaluated the effectiveness of a short-term outpatient DBT (DBT-S) skills group for individuals experiencing pervasive emotion dysregulation (PED). METHOD: Pre-and post-group outcome data consisted of self-report measures and six-month Mental Health admissions and Emergency Department presentations. RESULTS: Group completers reported significant improvements in psychological distress, depression, borderline symptomatology and functional impairment, increases in 'skills use' and decreases in 'dysfunctional coping', associated with symptomatic improvement. There were reduced numbers of Mental Health presentations and admissions between six months pre- and post-group. CONCLUSION: Findings support emerging evidence for DBT-S as an effective, viable treatment for PED.

Starting Health Disparities Education During Resident Orientation: Our Patients, Our Community.

Disparities in women's reproductive health outcomes are persistent and prevalent. Cultural competency education of trainees is central to reducing patient-, system-, and practitioner-level factors that promote disparate health outcomes. Such issues include health literacy, access to health care, and unconscious bias. We suggest that recognizing and reducing health disparities should be a longitudinal theme in resident education, first introduced during intern orientation and continued with dedicated didactics, experiential learning opportunities, grand rounds, and journal clubs built into the residency curricula. In this commentary, we present various methods of introducing health disparities education and commencing a larger conversation about inequity and race in medicine. We hope to encourage other training programs to incorporate this important topic earlier into their educational curriculum.

Class I histone deacetylases regulate p53/NF-κB crosstalk in cancer cells.

The transcription factors NF-κB and p53 as well as their crosstalk determine the fate of tumor cells upon therapeutic interventions. Replicative stress and cytokines promote signaling cascades that lead to the co-regulation of p53 and NF-κB. Consequently, nuclear p53/NF-κB signaling complexes activate NF-κB-dependent survival genes. The 18 histone deacetylases (HDACs) are epigenetic modulators that fall into four classes (I-IV). Inhibitors of histone deacetylases (HDACi) become increasingly appreciated as anti-cancer agents. Based on their effects on p53 and NF-κB, we addressed whether clinically relevant HDACi affect the NF-κB/p53 crosstalk. The chemotherapeutics hydroxyurea, etoposide, and fludarabine halt cell cycle progression, induce DNA damage, and lead to DNA fragmentation. These agents co-induce p53 and NF-κB-dependent gene expression in cell lines from breast and colon cancer and in primary chronic lymphatic leukemia (CLL) cells. Using specific HDACi, we find that the class I subgroup of HDACs, but not the class IIb deacetylase HDAC6, are required for the hydroxyurea-induced crosstalk between p53 and NF-κB. HDACi decrease the basal and stress-induced expression of p53 and block NF-κB-regulated gene expression. We further show that class I HDACi induce senescence in pancreatic cancer cells with mutant p53.

Assessment of HDACi-Induced Acetylation of Nonhistone Proteins by Mass Spectrometry.

Posttranslational acetylation of lysine residues has been discovered as multifaceted regulatory modification for various nuclear, cytoplasmic, and mitochondrial proteins. The implementation of high-resolution and high-throughput mass spectrometry (MS) approaches has led to the identification of a hitherto underappreciated, large number of acetylation sites for a broad spectrum of cellular proteins. In this chapter, we describe a comprehensive protocol for the purification of an in vivo-acetylated, ectopically expressed, FLAG-epitope tagged nonhistone protein through immunoprecipitation (IP). The protocol also covers the sample preparation by SDS-PAGE, proteolytic digestion, and the analysis by LC-ESI MS. The success of this methodology, however, strongly depends on the physico-chemical properties of the respective protein(s) and the quality of selected peptide mass spectra.

Acetylation modulates the STAT signaling code.

A fascinating question of modern biology is how a limited number of signaling pathways generate biological diversity and crosstalk phenomena in vivo. Well-defined posttranslational modification patterns dictate the functions and interactions of proteins. The signal transducers and activators of transcription (STATs) are physiologically important cytokine-induced transcription factors. They are targeted by a multitude of posttranslational modifications that control and modulate signaling responses and gene expression. Beyond phosphorylation of serine and tyrosine residues, lysine acetylation has recently emerged as a critical modification regulating STAT functions. Interestingly, acetylation can determine STAT signaling codes by various molecular mechanisms, including the modulation of other posttranslational modifications. Here, we provide an overview on the acetylation of STATs and how this protein modification shapes cellular cytokine responses. We summarize recent advances in understanding the impact of STAT acetylation on cell growth, apoptosis, innate immunity, inflammation, and tumorigenesis. Furthermore, we discuss how STAT acetylation can be targeted by small molecules and we consider the possibility that additional molecules controlling STAT signaling are regulated by acetylation. Our review also summarizes evolutionary aspects and we show similarities between the acetylation-dependent control of STATs and other important molecules. We propose the concept that, similar to the 'histone code', distinct posttranslational modifications and their crosstalk orchestrate the functions and interactions of STAT proteins.