Taylor K. Oniskey scite author profile

Intestinal epithelial cells (IEC) have important functions in nutrient absorption, barrier integrity, regeneration, pathogen-sensing, and mucus secretion. Goblet cells are a specialized cell type of IEC that secrete Trefoil factor 3 (TFF3) to regulate mucus viscosity and wound healing, but whether TFF3-responsiveness requires a receptor is unclear. Here, we show that leucine rich repeat receptor and nogo-interacting protein 2 (LINGO2) is essential for TFF3-mediated functions. LINGO2 immunoprecipitates with TFF3, co-localizes with TFF3 on the cell membrane of IEC, and allows TFF3 to block apoptosis. We further show that TFF3-LINGO2 interactions disrupt EGFR-LINGO2 complexes resulting in enhanced EGFR signaling. Excessive basal EGFR activation in Lingo2 deficient mice increases disease severity during colitis and augments immunity against helminth infection. Conversely, TFF3 deficiency reduces helminth immunity. Thus, TFF3-LINGO2 interactions de-repress inhibitory LINGO2-EGFR complexes, allowing TFF3 to drive wound healing and immunity.

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Macrophages promote epithelial proliferation following infectious and non-infectious lung injury through a Trefoil factor 2-dependent mechanism

Hung

Sen

Oniskey

et al. 2019

Mucosal Immunology

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Coordinated efforts between macrophages and epithelia are considered essential for wound healing, but the macrophage-derived molecules responsible for repair are poorly defined. This work demonstrates that lung macrophages rely upon Trefoil factor 2 to promote epithelial proliferation following damage caused by sterile wounding, Nippostrongylus brasiliensis or Bleomycin sulfate. Unexpectedly, the presence of T, B, or ILC populations was not essential for macrophage-driven repair. Instead, conditional deletion of TFF2 in myeloid-restricted CD11c Cre TFF2 flox mice exacerbated lung pathology and reduced the proliferative expansion of CD45 − EpCAM + pro-SPC + alveolar type 2 cells. TFF2 deficient macrophages had reduced expression of the Wnt genes Wnt4 and Wnt16 and reconstitution of hookworm-infected CD11c Cre TFF2 flox mice with rWnt4 and Wnt16 restored the proliferative defect in lung epitheliapost-injury. These data reveal a previously unrecognized mechanism wherein lung myeloid phagocytes utilize a TFF2/Wnt axis as a mechanism that drives epithelial proliferation following lung injury.

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Myeloid-Restricted AMPKα1 Promotes Host Immunity and Protects against IL-12/23p40–Dependent Lung Injury during Hookworm Infection

Nieves

Hung

Oniskey

et al. 2016

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How the metabolic demand of parasitism affects immune-mediated resistance is poorly understood. Immunity against parasitic helminthes requires M2 cells and interleukin-13 (IL-13), secreted by CD4+ TH2 and group 2 innate lymphoid cells (ILC2), but whether certain metabolic enzymes control disease outcome has not been addressed. This study demonstrates that AMP-activated protein kinase (AMPK), a key driver of cellular energy, regulates Type 2 immunity and restricts lung injury following hookworm infection. Mice with a selective deficiency in the AMPK catalytic α1 subunit in alveolar macrophages and conventional DC (cDC) produced less IL-13, and CCL17, and had impaired expansion of ILC2 in damaged lung tissue compared to wild-type controls. Defective Type 2 responses were marked by increased intestinal worm burdens, exacerbated lung injury, and increased production of IL-12/23p40, which, when neutralized, restored IL-13 production and improved lung recovery. Taken together, these data indicate that defective AMPK activity in myeloid cells negatively impacts Type 2 responses through increased IL-12/23p40 production. These data support an emerging concept that myeloid cells and ILC2 can coordinately regulate tissue damage at mucosal sites through mechanisms dependent upon metabolic enzyme function.

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Trefoil Factor 2 Promotes Type 2 Immunity and Lung Repair through Intrinsic Roles in Hematopoietic and Nonhematopoietic Cells

Hung

Oniskey

Sen

et al. 2018

The American Journal of Pathology

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Trefoil factors (TFFs) are small secreted proteins that regulate tissue integrity and repair at mucosal surfaces, particularly in the gastrointestinal tract. However, their relative contribution(s) to controlling baseline lung function or the extent of infection-induced lung injury are unknown issues. With the use of irradiation bone marrow chimeras, we found that TFF2 produced from both hematopoietic- and nonhematopoietic-derived cells is essential for host protection, proliferation of alveolar type 2 cells, and restoration of pulmonary gas exchange after infection with the hookworm parasite Nippostrongylus brasiliensis. In the absence of TFF2, lung epithelia were unable to proliferate and expressed reduced lung mRNA transcript levels for type 2 response-inducing IL-25 and IL-33 after infectious injury. Strikingly, even in the absence of infection or irradiation, TFF2 deficiency compromised lung structure and function, as characterized by distended alveoli and reduced blood oxygen levels relative to wild-type control mice. Taken together, we show a previously unappreciated role for TFF2, produced by either hematopoietic or nonhematopoietic sources, as a pro-proliferative factor for lung epithelial cells under steady-state and infectious injury conditions.

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Myeloid expression of the AP‐1 transcription factor JUNB modulates outcomes of type 1 and type 2 parasitic infections

Fontana

Baccarella

Kellar

et al. 2015

Parasite Immunology

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Activation of macrophages is a key step in initiation of immune responses, but the transcriptional mechanisms governing macrophage activation during infection are not fully understood. It was recently shown that the AP-1 family transcription factor JUNB positively regulates macrophage activation in response to Toll-like receptor agonists that promote classical or M1 polarization, as well as to the cytokine Interleukin-4 (IL-4), which elicits an alternatively activated or M2 phenotype. However, a role for JUNB in macrophage activation has never been demonstrated in vivo. Here, to dissect the role of JUNB in macrophage activation in a physiological setting, mice lacking JUNB specifically in myeloid cells were tested in two infection models: experimental cerebral malaria, which elicits a pathological type 1 immune response, and helminth infection, in which type 2 responses are protective. Myeloid-restricted deletion of Junb reduced type 1 immune activation, which was associated with reduced cerebral pathology and improved survival during infection with Plasmodium berghei. Myeloid JUNB deficiency also compromised type 2 activation during infection with the hookworm Nippostrongylus brasiliensis, leading to diminished cytokine production and eosinophil recruitment and increased parasite burden. These results demonstrate that JUNB in myeloid cells shapes host responses and outcomes during type 1 and type 2 infections.

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Taylor K. Oniskey

TFF3 interacts with LINGO2 to regulate EGFR activation for protection against colitis and gastrointestinal helminths

Macrophages promote epithelial proliferation following infectious and non-infectious lung injury through a Trefoil factor 2-dependent mechanism

Myeloid-Restricted AMPKα1 Promotes Host Immunity and Protects against IL-12/23p40–Dependent Lung Injury during Hookworm Infection

Trefoil Factor 2 Promotes Type 2 Immunity and Lung Repair through Intrinsic Roles in Hematopoietic and Nonhematopoietic Cells

Myeloid expression of the AP‐1 transcription factor JUNB modulates outcomes of type 1 and type 2 parasitic infections

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