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Biglari S, Youssefian L, Tabatabaiefar MA, Saeidian AH, Abtahi-Naeini B, Khor...
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DOCK2 Deficiency and GATA2 Haploinsufficiency Can Underlie Critical Coronavir... (opens in new window)

JOURNAL OF CLINICAL IMMUNOLOGY 2025 DEC; 45(1):? Article 85
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The life-threatening coronavirus disease 2019 (COVID-19) affects about 1 in 1,000 healthy people under 50 without underlying conditions. Among patients with critical COVID-19 pneumonia, rare germline variants at genes controlling type I IFN immunity have been reported in up to 5% of patients. Causal etiologies in 80-85% of cases are still unknown. We analyzed two families with hypoxemic COVID-19 pneumonia for known single-gene inborn errors of immunity. In Family 1, two siblings with critical COVID-19 were homozygous for a DOCK2 variant, c.3624+5G>A. DOCK2 deficiency is a known T-cell disorder underlying severe viral diseases. The variant resulted in skipping exon 35, which was predicted to produce a frameshift truncated protein (p.L1157Ifs*12). The proband showed markedly decreased blood CD4 T-helper cell counts, impaired T lymphocyte transformation test, and increased serum IgG, IgA, and IgE levels, as documented in other DOCK2-deficient patients. In Family 2, the proband had lethal COVID-19 and HPV-2-associated multiple recalcitrant warts. She was heterozygous for a deletion in GATA2:c.1075_1102del28, p.W360Sfs*18. GATA2 haploinsufficiency is a known cause of severe viral diseases due to a lack of plasmacytoid dendritic cell (pDC) development. The proband had monocytopenia and a lack of circulating pDCs, as reported in other patients with GATA2 haploinsufficiency. Overall, both DOCK2 deficiency and GATA2 haploinsufficiency are associated with critical and often fatal COVID-19 pneumonia.
Covill LE, Cobat A, Zhang Q, Bryceson YT, COVID Human Genetic Effort
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No Association Between HLH-associated Gene Variants and Life-Threatening COVI... (opens in new window)

JOURNAL OF CLINICAL IMMUNOLOGY 2025 DEC; 45(1):? Article 80
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Huynh A, Gray P, Sullivan A, Mackie J, Guerin A, Rao GT, Pathmanandavel K, De...
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A Novel Case of IFNAR1 Deficiency Identified a Common Canonical Splice... (opens in new window)

JOURNAL OF CLINICAL IMMUNOLOGY 2025 DEC; 45(1):? Article 11
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Charlson ME, Mittleman I, Ramos R, Cassells A, Lin T, Eggleston A, Wells MT, ...
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Preventing "tipping points" in high comorbidity patients: A lifeline from hea... (opens in new window)

CONTEMPORARY CLINICAL TRIALS 2025 MAY; 152(?):? Article 107865
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Background: This paper describes an innovative cluster randomized controlled trial design to evaluate the comparative effectiveness of two approaches to preventing significant destabilization, leading to unplanned hospitalization and increased disability for patients with high comorbidity, that is, multiple chronic diseases defined by an enhanced Charlson Comorbidity Index >= 4. Methods: A total of 1974 patients were randomized in four waves at each of the sixteen Federally Qualified Health Centers (FQHCs) in four health systems -two in New York and two in Chicago. The two interventions compared 1) Patient-Centered Medical Home (PCMH) as implemented by the FQHCs (usual care control); or 2) PCMH plus a coaching intervention delivered by Health Coaches (experimental) helping patients identify life goals to encourage self-management enhanced by a positive affect/self-affirmation strategy. The two primary patient-centered clinical outcomes are 1) Unplanned hospitalizations; and 2) Within-patient changes in quality of life and disability, as measured by the World Health Organization Disability Assessment Scale 2 (WHODAS 2.0). The hypotheses are: 1) intervention patients will have a 5 % relative reduction in unplanned hospitalizations as compared to control patients; and 2) reduced disability measured by WHODAS2.0; 3) destabilization or 'tipping points' leading to hospitalization will be more often triggered by psychosocial issues than by medical Issues. Conclusion: This cluster RCT has the potential to transform the care for patients with high comorbidity by helping motivate patients to engage in self-management and to successfully navigate the barriers, challenges, and stresses leading to destabilization, hospitalization, and increased disability. ClinicalTrials.gov registration number: NCT04176510
Xing CC, Shi LH, Zhu LM, Aguirre T, Qi J, Chen YY, Liu Y, Chin AC, Zhu H, Fie...
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IP6K1 Rewires LKB1 Signaling to Mediate Hyperglycemic Endothelial Senescence (opens in new window)

DIABETES 2025 APR; 74(4):?
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Diabetes is a major risk factor for cardiovascular disease, but the molecular mechanisms underlying diabetic vasculopathy have been elusive. Here we report that inositol hexakisphosphate kinase 1 (IP6K1) mediates hyperglycemia-induced endothelial senescence by rewiring liver kinase B1 (LKB1) signaling from the AMPK pathway to the p53 pathway. We found that hyperglycemia upregulated IP6K1, which disrupted Hsp/Hsc70 and carboxyl terminus of Hsc70-interacting protein-mediated LKB1 degradation, leading to increased expression levels of LKB1. High glucose also strengthened the binding of IP6K1 to AMPK, suppressing LKB1-mediated AMPK activation. Thus, elevated LKB1 did not lead to activation of the AMPK pathway. Instead, it bound more to p53, resulting in p53-dependent endothelial senescence. Endothelial cell-specific deletion of IP6K1 alleviated, whereas endothelial cell-specific overexpression of IP6K1 exaggerated, hyperglycemia-induced endothelial senescence. This study reveals a regulatory mechanism of IP6K1 in switching LKB1 activation of the AMPK pathway to activation of the p53 pathway. IP6K1 represents a potential therapeutic target for treating hyperglycemia-induced endothelial dysfunction.Article Highlights Diabetes is a major risk factor for cardiovascular diseases. The mechanisms of hyperglycemia-induced endothelial dysfunction have been elusive. We found that inositol hexakisphosphate kinase 1 (IP6K1) mediates hyperglycemia-induced endothelial senescence by switching liver kinase B1 (LKB1) activation of the AMPK pathway to activation of the p53 pathway. Hyperglycemia upregulates IP6K1, which stabilizes LKB1 by disrupting Hsp/Hsc70 and carboxyl terminus of Hsc70-interacting protein-mediated LKB1 degradation but suppresses LKB1-dependent AMPK activation. Elevated LKB1 binds more to p53, resulting in p53-dependent endothelial senescence. Endothelial cell-specific deletion of IP6K1 attenuates, whereas endothelial cell-specific overexpression of IP6K1 exaggerates, hyperglycemia-induced endothelial senescence.
Wu CS, Li HP, Hsieh CH, Lin YT, Chang IYF, Chung AK, Huang YL, Ueng SH, Hsiao...
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Integrated multi-omics analyses of oral squamous cell carcinoma reveal precis... (opens in new window)

CANCER LETTERS 2025 APR 1; 614(?):? Article 217482
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Oral cavity squamous cell carcinoma (OSCC), a leading subtype of head and neck cancer, exhibits high global incidence and mortality rates. Despite advancements in surgery and radiochemotherapy, approximately one third of patients experience relapse. To improve current targeted and immunotherapy strategies for recurrent OSCC, we conducted multi-omics analyses on pretreatment OSCC samples (cohorts 1 and 2, n = 137) and identified A3A and EGFR, both at the RNA and protein levels, as inversely expressed markers for patient stratification and response prediction. Survival analysis demonstrated that elevated A3A or PD-L1 expression levels correlated to improved responses to anti-PD-1 therapy in patients (cohort 3a, n = 50, IHC). In contrast, high RRAS expression (cohort 4, n = 252, qRT-PCR) was significantly associated with OSCC recurrence. Cell-based experiments revealed that RRAS was involved in radiotherapy and cisplatin resistance through the EGFR/ RRAS/AKT/ERK signaling pathway. In OSCC patient-derived xenograft (PDX) mouse models, treatments with cisplatin and cetuximab (anti-EGFR) effectively reduced tumor size in EGFR-high-derived (#34) but not A3Ahigh-derived (#22) PDX tumors. Our study demonstrated that A3A-high tumors were immune-hot and responsive to anti-PD-1 therapy, whereas EGFR-high tumors exhibited chr.7p11.2 gains and DNA repair alterations. Additionally, RRAS-high tumors were associated with OSCC recurrence via AKT and ERK phosphorylation and demonstrate improved clinical outcomes with cetuximab therapy (cohort 3b, n = 49, IHC). This study emphasizes the significance of A3A and EGFR expression levels in OSCC patient stratification and precision therapy, suggesting the use of anti-PD-1 or anti-EGFR treatments, respectively based on these biomarkers. Furthermore, RRAS emerges as a novel prognostic marker for local recurrence.
Mätlik K, Govek EE, Hatten ME
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Histone bivalency in CNS development (opens in new window)

GENES & DEVELOPMENT 2025 APR 1; 39(7-8):428-444
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Neuronal maturation is guided by changes in the chromatin landscape that control developmental gene expression programs. Histone bivalency, the co-occurrence of activating and repressive histone modifications, has emerged as an epigenetic feature of developmentally regulated genes during neuronal maturation. Although initially associated with early embryonic development, recent studies have shown that histone bivalency also exists in differentiated and mature neurons. In this review, we discuss methods to study bivalency in specific populations of neurons and summarize emerging studies on the function of bivalency in central nervous system neuronal maturation and in adult neurons.
Mears KS, Denny JE, Maslanka JR, Mdluli NV, Hulit EN, Matsuda R, Furth EE, Bu...
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Therapeutic activation of IL-22-producing innate lymphoid cells enhances host... (opens in new window)

CELL REPORTS 2025 APR 22; 44(4):? Article 115438
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Clostridioides difficile causes debilitating colitis via secreted toxins that disrupt the intestinal barrier, and toxemia is associated with severe disease. Thus, therapies that fortify the intestinal barrier will reduce the severity of infection. Innate lymphoid cells (ILCs) are critical in the defense against acute C. difficile infection and represent a promising therapeutic target to limit disease. Here, we report that oral administration of the Toll-like receptor (TLR) 7 agonist R848 limits intestinal damage and protects mice from lethal C. difficile infection without impacting pathogen burden or altering the intestinal microbiome. R848 induced interleukin (IL)- 22 secretion by ILCs, leading to STAT3 phosphorylation in the intestinal epithelium and increased stem cell proliferation. Genetic ablation of ILCs, IL-22, or epithelial-specific STAT3 abrogated R848-mediated protection. R848 reduced intestinal permeability following infection and limited systemic toxin dissemination. Combined, these data identify an immunostimulatory molecule that activates IL-22 production in ILCs to enhance host tissue defenses following C. difficile infection.
Francou A, Hur W, Hadjantonakis AK
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Marrying mechanics with spatial transcriptomics (opens in new window)

NATURE METHODS 2025 APR; 22(4):658-659
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Buitrago L, Menezes MR, Larson C, Li JH, Kartika T, Banerjee P, Glickman F, C...
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Unbiased high-throughput screening of drug-repurposing libraries identifies s... (opens in new window)

BLOOD ADVANCES 2025 MAR 11; 9(5):1049-1068
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Platelet clot retraction, the ultimate phase of platelet thrombus formation, is critical for clot stabilization. It requires functional alpha IIb(33 receptors, fibrin, and the integrated actions of the actin-myosin contractile and cytoskeletal systems. Disturbances in clot retraction have been associated with both bleeding and thrombosis. We recently demonstrated that platelets treated with the alpha IIb(33 antagonist peptide Arg-Gly-Asp-Trp, which eliminates fibrinogen- mediated platelet aggregation, are still able to retract clots. We have exploited this observation to develop an unbiased, functional high-throughput assay to identify small- molecule inhibitors of fibrin-mediated clot retraction adapted for a 384-well plate format. We tested 9710 compounds from drug-repurposing libraries (DRLs). These libraries contain compounds that are either US Food and Drug Administration approved or have undergone preclinical/clinical development. We identified 27 compounds from the Library of Pharmacologically Active Compounds library as inhibitors of clot retraction, of which 14 are known inhibitors of platelet function. From the DRLs, we identified 135 compounds (1.6% hit rate). After extensive curation, these compounds were categorized based on the activity of their reported target. Multiple kinase and phosphodiesterase inhibitors with known antiplatelet effects were identified, along with multiple deubiquitination and receptor inhibitors, as well as compounds that have not previously been reported to have antiplatelet activity. Studies of 1 of the deubiquitination inhibitors (degrasyn) suggest that its effects are downstream of thrombin-induced platelet-fibrinogen interactions and thus may permit the separation of platelet thrombin-induced aggregation-mediated events from clot retraction. Additional studies of the identified compounds may lead to novel mechanisms of inhibiting thrombosis.