Amy DeMicco scite author profile

Pyrethroid insecticides are one of the most commonly used residential and agricultural insecticides. Based on the increased use of pyrethroids and recent studies showing that pregnant women and children are exposed to pyrethroids, there are concerns over the potential for developmental neurotoxicity. However, there have been relatively few studies on the developmental neurotoxicity of pyrethroids. In this study, we sought to investigate the developmental toxicity of six common pyrethroids, three type I compounds (permethrin, resmethrin, and bifenthrin) and three type II compounds (deltamethrin, cypermethrin, and lambda-cyhalothrin), and to determine whether zebrafish embryos may be an appropriate model for studying the developmental neurotoxicity of pyrethroids. Exposure of zebrafish embryos to pyrethroids caused a dose-dependent increase in mortality and pericardial edema, with type II compounds being the most potent. At doses approaching the LC(50), permethrin and deltamethrin caused craniofacial abnormalities. These findings are consistent with mammalian studies demonstrating that pyrethroids are mildly teratogenic at very high doses. However, at lower doses, body axis curvature and spasms were observed, which were reminiscent of the classic syndromes observed with pyrethroid toxicity. Treatment with diazepam ameliorated the spasms, while treatment with the sodium channel antagonist MS-222 ameliorated both spasms and body curvature, suggesting that pyrethroid-induced neurotoxicity is similar in zebrafish and mammals. Taken in concert, these data suggest that zebrafish may be an appropriate alternative model to study the mechanism(s) responsible for the developmental neurotoxicity of pyrethroid insecticides and aid in identification of compounds that should be further tested in mammalian systems.

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A MALT1 inhibitor suppresses human myeloid DC, effector T-cell and B-cell responses and retains Th1/regulatory T-cell homeostasis

Dumont

Sivars

Andreasson

et al. 2020

PLoS ONE

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The paracaspase mucosa-associated lymphoid tissue lymphoma translocation protein-1 (MALT1) regulates nuclear-factor-kappa-B (NF-κB) activation downstream of surface receptors with immunoreceptor tyrosine-based activation motifs (ITAMs), such as the B-cell or Tcell receptor and has thus emerged as a therapeutic target for autoimmune diseases. However, recent reports demonstrate the development of lethal autoimmune inflammation due to the excessive production of interferon gamma (IFN-ɣ) and defective differentiation of regulatory T-cells in genetically modified mice deficient in MALT1 paracaspase activity. To address this issue, we explored the effects of pharmacological MALT1 inhibition on the balance between T-effector and regulatory T-cells. Here we demonstrate that allosteric inhibition of MALT1 suppressed Th1, Th17 and Th1/Th17 effector responses, and inhibited T-cell dependent B-cell proliferation and antibody production. Allosteric MALT1 inhibition did not interfere with the suppressive function of human T-regulatory cells, although it impaired de novo differentiation of regulatory T-cells from naïve T-cells. Treatment with an allosteric MALT1 inhibitor alleviated the cytokine storm, including IFN-ɣ, in a mouse model of acute Tcell activation, and long-term treatment did not lead to an increase in IFN-ɣ producing CD4 cells or tissue inflammation. Together, our data demonstrate that the effects of allosteric inhibition of MALT1 differ from those seen in mice with proteolytically inactive MALT1, and thus we believe that MALT1 is a viable target for B and T-cell driven autoimmune diseases.

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Bronchial extracellular matrix from COPD patients induces altered gene expression in repopulated primary human bronchial epithelial cells

Hedström

Hällgren

Öberg

et al. 2018

Sci Rep

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Chronic obstructive pulmonary disease (COPD) is a serious global health problem characterized by chronic airway inflammation, progressive airflow limitation and destruction of lung parenchyma. Remodeling of the bronchial airways in COPD includes changes in both the bronchial epithelium and the subepithelial extracellular matrix (ECM). To explore the impact of an aberrant ECM on epithelial cell phenotype in COPD we developed a new ex vivo model, in which normal human bronchial epithelial (NHBE) cells repopulate and differentiate on decellularized human bronchial scaffolds derived from COPD patients and healthy individuals. By using transcriptomics, we show that bronchial ECM from COPD patients induces differential gene expression in primary NHBE cells when compared to normal bronchial ECM. The gene expression profile indicated altered activity of upstream mediators associated with COPD pathophysiology, including hepatocyte growth factor, transforming growth factor beta 1 and platelet-derived growth factor B, which suggests that COPD-related changes in the bronchial ECM contribute to the defective regenerative ability in the airways of COPD patients.

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Tp53 deletion in B lineage cells predisposes mice to lymphomas with oncogenic translocations

et al. 2011

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Inactivating Tp53 mutations are frequent genetic lesions in human tumors that harbor genomic instability, including B lineage lymphomas with IG translocations. Antigen receptor genes are assembled and modified in developing lymphocytes by RAG/AID-initiated genomic rearrangements that involve the induction of DNA double strand breaks (DSBs). Although TP53 inhibits the persistence of DSBs and induces apoptosis to protect cells from genomic instability and transformation, the development of spontaneous tumors harboring clonal translocations has not been reported in mice that only lack wild-type Tp53 protein or express Tp53 mutants. Tp53-deficient (Tp53 À/À ) mice succumb to T lineage lymphomas lacking clonal translocations but develop B lymphoid tumors containing immunoglobulin (Ig) translocations upon combined inactivation of DSB repair factors, RAG mutation or AID overexpression; mice expressing apoptosis-defective Tp53 mutants develop B cell lymphomas that have not been characterized for potential genomic instability. As somatic rather than germline inactivating mutations of TP53 are typically associated with human cancers and Tp53 deletion has cellular context dependent effects upon lymphocyte transformation, we generated mice with conditional Tp53 deletion in lineage-committed B lymphocytes to avoid complications associated with defective Tp53 responses during embryogenesis and/or in multilineage potential cells and, thereby, directly evaluate the potential physiological role of Tp53 in suppressing translocations in differentiated cells. These mb1-cre:Tp53 flox/flox mice succumbed to lymphoid tumors containing Ig gene rearrangements and immunophenotypes characteristic of B cells from various developmental stages. Most mb1-cre: Tp53 flox/flox tumors harbored clonal translocations, including Igh/c-myc or other oncogenic translocations generated by the aberrant repair of RAG/AID-generated DSBs.Our data indicate that Tp53 serves critical functions in B lineage lymphocytes to prevent transformation caused by translocations in cell populations experiencing physiological levels of RAG/AID-initiated DSB intermediates, and provide evidence that the somatic TP53 mutations found in diffuse large B-cell lymphoma and Burkitt's lymphoma may contribute to the development of these human malignancies.

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Amy DeMicco

Developmental Neurotoxicity of Pyrethroid Insecticides in Zebrafish Embryos

A MALT1 inhibitor suppresses human myeloid DC, effector T-cell and B-cell responses and retains Th1/regulatory T-cell homeostasis

Bronchial extracellular matrix from COPD patients induces altered gene expression in repopulated primary human bronchial epithelial cells

Tp53 deletion in B lineage cells predisposes mice to lymphomas with oncogenic translocations

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