Lauren K. Boland scite author profile

Insulin and its receptor are critical for the regulation of metabolic functions, but the mechanisms underlying insulin receptor (IR) trafficking to the plasma membrane are not well understood. Here, we show that Bardet Biedl Syndrome (BBS) proteins are necessary for IR localization to the cell surface. We demonstrate that the IR interacts physically with BBS proteins, and reducing the expression of BBS proteins perturbs IR expression in the cell surface. We show the consequence of disrupting BBS proteins for whole body insulin action and glucose metabolism using mice lacking different BBS genes. These findings demonstrate the importance of BBS proteins in underlying IR cell surface expression. Our data identify defects in trafficking and localization of the IR as a novel mechanism accounting for the insulin resistance commonly associated with human BBS. This is supported by the reduced surface expression of the IR in fibroblasts derived from patients bearing the M390R mutation in the BBS1 gene.

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IFN-γ and TNF-α Pre-licensing Protects Mesenchymal Stromal Cells from the Pro-inflammatory Effects of Palmitate

Boland

Burand

Brown

et al. 2018

Molecular Therapy

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The use of mesenchymal stromal cell (MSC) therapy for the treatment of type 2 diabetes (T2D) and T2D complications is promising; however, the investigation of MSC function in the setting of T2D has not been thoroughly explored. In our current study, we investigated the phenotype and function of MSCs in a simulated in vitro T2D environment. We show that palmitate, but not glucose, exposure impairs MSC metabolic activity with moderate increases in apoptosis, while drastically affecting proliferation and morphology. In co-culture with peripheral blood mononuclear cells (PBMCs), we found that MSCs not only lose their normal suppressive ability in high levels of palmitate, but actively support and enhance inflammation, resulting in elevated PBMC proliferation and pro-inflammatory cytokine release. The pro-inflammatory effect of MSCs in palmitate was partially reversed via palmitate removal and fully reversed through pre-licensing MSCs with interferon-gamma and tumor necrosis factor alpha. Thus, palmitate, a specific metabolic factor enriched within the T2D environment, is a potent modulator of MSC immunosuppressive function, which may in part explain the depressed potency observed in MSCs isolated from T2D patients. Importantly, we have also identified a robust and durable pre-licensing regimen that protects MSC immunosuppressive function in the setting of T2D.

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Aggregation of Human Mesenchymal Stromal Cells Eliminates Their Ability to Suppress Human T Cells

Burand

Boland

et al. 2020

Front. Immunol.

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Mesenchymal stromal cells (MSCs) are administered locally to treat sites of inflammation. Local delivery is known to cause MSCs to aggregate into "spheroids," which alters gene expression and phenotype. While adherent MSCs are highly efficient in their inhibition of T cells, whether or not this property is altered upon MSC aggregation has not been thoroughly determined. In this study, we discovered that aggregation of MSCs into spheroids causes them to lose their T cell-suppressive abilities. Interestingly, adding budesonide, a topical glucocorticoid steroid, alongside spheroids partially restored MSC suppression of T cell proliferation. Through a series of inhibition and add-back studies, we determined budesonide acts synergistically with spheroid MSC-produced PGE2 to suppress T cell proliferation through the PGE2 receptors EP2 and EP4. These findings highlight critical differences between adherent and spheroid MSC interactions with human immune cells that have significant translational consequences. In addition, we uncovered a mechanism through which spheroid MSC suppression of T cells can be partly restored. By understanding the phenotypic changes that occur upon MSC aggregation and the impact of MSC drug interactions, improved immunosuppressive MSC therapies for localized delivery can be designed.

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Lauren K. Boland

Regulation of Insulin Receptor Trafficking by Bardet Biedl Syndrome Proteins

IFN-γ and TNF-α Pre-licensing Protects Mesenchymal Stromal Cells from the Pro-inflammatory Effects of Palmitate

Aggregation of Human Mesenchymal Stromal Cells Eliminates Their Ability to Suppress Human T Cells

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