Browsing by Author "Choi, Hae Woong"
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Item Open Access IL-27 Facilitates Skin Wound Healing through Induction of Epidermal Proliferation and Host Defense.(The Journal of investigative dermatology, 2017-05) Yang, Bin; Suwanpradid, Jutamas; Sanchez-Lagunes, Roberto; Choi, Hae Woong; Hoang, Peter; Wang, Donghai; Abraham, Soman N; MacLeod, Amanda SSkin wound repair requires a coordinated program of epithelial cell proliferation and differentiation as well as resistance to invading microbes. However, the factors that trigger epithelial cell proliferation in this inflammatory process are incompletely understood. In this study, we demonstrate that IL-27 is rapidly and transiently produced by CD301b+ cells in the skin after injury. The functional role of IL-27 and CD301b+ cells is demonstrated by the finding that CD301b-depleted mice exhibit delayed wound closure in vivo, which could be rescued by topical IL-27 treatment. Furthermore, genetic ablation of the IL-27 receptor (Il27Ra-/-) attenuates wound healing, suggesting an essential role for IL-27 signaling in skin regeneration in vivo. Mechanistically, IL-27 feeds back on keratinocytes to stimulate cell proliferation and re-epithelialization in the skin, whereas IL-27 leads to suppression of keratinocyte terminal differentiation. Finally, we identify that IL-27 potently increases expression of the antiviral oligoadenylate synthetase 2, but does not affect expression of antibacterial human beta defensin 2 or regenerating islet-derived protein 3-alpha. Together, our data suggest a previously unrecognized role for IL-27 in regulating epithelial cell proliferation and antiviral host defense during the normal wound healing response.Item Open Access MRGPR-mediated activation of local mast cells clears cutaneous bacterial infection and protects against reinfection.(Science advances, 2019-01-02) Arifuzzaman, Mohammad; Mobley, Yuvon R; Choi, Hae Woong; Bist, Pradeep; Salinas, Cristina A; Brown, Zachary D; Chen, Swaine L; Staats, Herman F; Abraham, Soman NMast cells (MCs) are strategically distributed at barrier sites and prestore various immunocyte-recruiting cytokines, making them ideal targets for selective activation to treat peripheral infections. Here, we report that topical treatment with mastoparan, a peptide MC activator (MCA), enhances clearance of Staphylococcus aureus from infected mouse skins and accelerates healing of dermonecrotic lesions. Mastoparan functions by activating connective tissue MCs (CTMCs) via the MRGPRX2 (Mas-related G protein-coupled receptor member X2) receptor. Peripheral CTMC activation, in turn, enhances recruitment of bacteria-clearing neutrophils and wound-healing CD301b+ dendritic cells. Consistent with MCs playing a master coordinating role, MC activation also augmented migration of various antigen-presenting dendritic cells to draining lymph nodes, leading to stronger protection against a second infection challenge. MCAs therefore orchestrate both the innate and adaptive immune arms, which could potentially be applied to combat peripheral infections by a broad range of pathogens.Item Open Access Novel mucosal adjuvant, mastoparan-7, improves cocaine vaccine efficacy(npj Vaccines, 2020-12) St John, Ashley L; Choi, Hae Woong; Walker, Q David; Blough, Bruce; Kuhn, Cynthia M; Abraham, Soman N; Staats, Herman FItem Open Access Salmonella Suppress Innate Immunity by Targeting Mast Cells(2014) Choi, Hae WoongMast cells (MCs) are increasingly recognized as powerful sentinel cells responsible for modulating the early immune responses to a wide range of infectious agents. This protective role is attributable in part to their preponderance at the host-environment interface and their innate capacity to rapidly release modulators of immune cell trafficking which promotes the early recruitment of pathogen-clearing immune cells from the blood. However, host-adapted pathogens had been a critical threat to human for a long time because they have evolved mechanisms directed at overcoming protective immunity.
In this work, we outline Salmonella enterica serovar Typhimurium has evolved a novel mechanism to inactivate peripheral MCs resulting in limited neutrophil responses at infection sites in early stage of infection. Because of the delay in bacterial clearance at the point of entry, Salmonella are able to multiply and rapidly disseminate to distal sites. Suppression of local MCs' degranulation restricted outflow of vascular contents into infection sites, thus facilitating bacterial spread.
We discover MC suppression is mediated by the Salmonella Protein Tyrosine Phosphatase (SptP), which shares structural homology with Yersinia YopH. Interestingly, SptP, not only shares homology with phosphatases found in MCs, they are also homologous to YopH an effector protein expressed by plague causing Yersinia pestis. We show that YopH had MC suppressing abilities as SptP suggesting that this activity is shared among some of the more virulent bacterial pathogens. The functionally relevant domain in SptP is its enzymatic site and that it works by dephosphorylating the vesicle fusion protein N-ethylmalemide-sensitive factor (NSF) and by blocking phosphorylation of Syk, which is located in downstream and upstream of tyrosine phosphorylation signaling pathway in MCs.
Without SptP, orally challenged S. Typhimurium failed to suppress MC degranulation and exhibited limited colonization of the mesenteric lymph nodes. Administration of SptP to sites of Escherichia coli infection markedly enhanced its virulence. Thus, SptP-mediated inactivation of local MCs is a powerful mechanism utilized by S. Typhimurium to impede early innate immunity. This finding provides a logical explanation for why previous attempts by others to demonstrate a protective role for MCs against Salmonella infections have resulted in equivocal results.
Taken together, this work highlights an overlooked virulence mechanism possessed by certain host adapted pathogens to avoid the host's innate immune system. Additionally, this innate immune-quelling property of SptP may hold future promise in tempering harmful inflammatory disorders in the body of an immune competent host.
Item Open Access Why Serological Responses during Cystitis are Limited.(Pathogens, 2016-02-14) Choi, Hae Woong; Abraham, Soman NThe high frequency of urinary tract infections (UTIs), some of which appear to be endogenous relapses rather than reinfections by new isolates, point to defects in the host's memory immune response. It has been known for many decades that, whereas kidney infections evoked an antibody response to the infecting bacteria, infections limited to the bladder failed to do so. We have identified the existence of a broadly immunosuppressive transcriptional program associated with the bladder, but not the kidneys, during infection of the urinary tract that is dependent on bladder mast cells. This involves the localized secretion of IL-10 and results in the suppression of humoral immune responses in the bladder. Mast cell-mediated immune suppression could suggest a role for these cells in critically balancing the needs to clear infections with the imperative to prevent harmful immune reactions in the host.