Kyle T. Howard scite author profile

Low-grade chronic inflammation is a key etiological phenomenon responsible for the initiation and perpetuation of obesity and diabetes. Novel therapeutic approaches that can specifically target inflammatory pathways are needed to avert this looming epidemic of metabolic disorders. Genetic and chemical inhibition of SH2-containing inositol 5′ phosphatase 1 (SHIP1) has been associated with systemic expansion of immunoregulatory cells that promote a lean-body state; however, SHIP1 function in immunometabolism has never been assessed. This led us to investigate the role of SHIP1 in metabolic disorders during excess caloric intake in mice. Using a small-molecule inhibitor of SHIP1 (SHIPi), here we show that SHIPi treatment in mice significantly reduces body weight and fat content, improves control of blood glucose and insulin sensitivity, and increases energy expenditure, despite continued consumption of a high-fat diet. Additionally, SHIPi reduces age-associated fat in mice. We found that SHIPi treatment reverses diet-associated obesity by attenuating inflammation in the visceral adipose tissue (VAT). SHIPi treatment increases IL-4–producing eosinophils in VAT and consequently increases both alternatively activated macrophages and myeloid-derived suppressor cells. In addition, SHIPi decreases the number of IFN-γ–producing T cells and NK cells in VAT. Thus, SHIPi represents an approach that permits control of obesity and diet-induced metabolic syndrome without apparent toxicity.

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Alkylation of thiols with trichloroacetimidates under neutral conditions

Duffy

Howard

Chisholm

2015

Tetrahedron Letters

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Spontaneous formation of PMB esters using 4-methoxybenzyl-2,2,2-trichloroacetimidate

Shah

Russo

Howard

et al. 2014

Tetrahedron Letters

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SHIPi Enhances Autologous and Allogeneic Hematopoietic Stem Cell Transplantation

et al. 2015

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Hematopoietic stem cell transplantation (HSCT) is a highly effective procedure enabling long-term survival for patients with hematologic malignancy or heritable defects. Although there has been a dramatic increase in the success rate of HSCT over the last two decades, HSCT can result in serious, sometime untreatable, disease due to toxic conditioning regimens, graft vs. host disease and required use of mismatched bone marrow in some cases. Studies utilizing germline knockout mice have discovered several candidate genes that could be targeted pharmacologically to create a more favorable environment for transplant success. SHIP1 deficiency permits improved engraftment of hematopoietic stem-progenitor cells (HS-PC) and produces a suppressive microenvironment ideal for incoming grafts. The recent development of small molecule SHIP1 inhibitors has opened a different therapeutic approach to creating transient SHIP1-deficiency. Here we show that SHIP1 inhibition (SHIPi) can mobilize functional HS-PC, accelerate hematologic recovery, and enhance donor HS-PC engraftment in both allogeneic and autologous transplant settings. We also observed the expansion of key cell populations known to suppress host-reactive cells formed during engraftment. Therefore, SHIPi represents a non-toxic, new therapeutic that has significant potential to improve the success and safety of therapies that utilize HSCT.

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Ester Formation via Symbiotic Activation Utilizing Trichloroacetimidate Electrophiles

et al. 2019

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Trichloroacetimidates are useful reagents for the synthesis of esters under mild conditions that do not require an exogenous promoter. These conditions avoid the undesired decomposition of substrates with sensitive functional groups that are often observed with the use of strong Lewis or Brønsted acids. With heating, these reactions have been extended to benzyl esters without electron donating groups. These inexpensive and convenient methods should find application in the formation of esters in complex substrates.

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Kyle T. Howard

A small-molecule inhibitor of SHIP1 reverses age- and diet-associated obesity and metabolic syndrome

Alkylation of thiols with trichloroacetimidates under neutral conditions

Spontaneous formation of PMB esters using 4-methoxybenzyl-2,2,2-trichloroacetimidate

SHIPi Enhances Autologous and Allogeneic Hematopoietic Stem Cell Transplantation

Ester Formation via Symbiotic Activation Utilizing Trichloroacetimidate Electrophiles

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