Brett Hill scite author profile

The precise mechanism by which oral infection contributes to the pathogenesis of extra-oral diseases remains unclear. Here, we report that periodontal inflammation exacerbates gut inflammation in vivo. Periodontitis leads to expansion of oral pathobionts, including Klebsiella and Enterobacter species, in the oral cavity. Amassed oral pathobionts are ingested and translocate to the gut, where they activate the inflammasome in colonic mononuclear phagocytes, triggering inflammation. In parallel, periodontitis results in generation of oral pathobiont-reactive Th17 cells in the oral cavity. Oral pathobiont-reactive Th17 cells are imprinted with gut tropism and migrate to the inflamed gut. When in the gut, Th17 cells of oral origin can be activated by translocated oral pathobionts and cause development of colitis, but they are not activated by gut-resident microbes. Thus, oral inflammation, such as periodontitis, exacerbates gut inflammation by supplying the gut with both colitogenic pathobionts and pathogenic T cells.

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Engineering Virus-like Particles for Antigen and Drug Delivery

Hill

Zak

Khera

et al. 2017

CPPS

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Virus-like particles (VLPs) are nanoscale biological structures consisting of viral proteins assembled in a morphology that mimic the native virion but do not contain the viral genetic material. The possibility of chemically and genetically modifying the proteins contained within VLPs makes them an attractive system for numerous applications. As viruses are potent immune activators as well as natural delivery vehicles of genetic materials to their host cells, VLPs are especially well suited for antigen and drug delivery applications. Despite the great potential, very few VLP designs have made it through clinical trials. In this review, we will discuss the challenges of developing VLPs for antigen and drug delivery, strategies being explored to address these challenges, and the genetic and chemical approaches available for VLP engineering.

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The Coming Age of Insect Cells for Manufacturing and Development of Protein Therapeutics

Yee

Zak

Hill

et al. 2018

Ind. Eng. Chem. Res.

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Protein therapeutics is a rapidly growing segment of the pharmaceutical market. Currently, the majority of protein therapeutics are manufactured in mammalian cells for their ability to generate safe and efficacious human-like glycoproteins. The high cost of using mammalian cells for manufacturing has motivated a constant search for alternative host platforms. Insect cells have begun to emerge as a promising candidate, largely due to the development of the baculovirus expression vector system. While there are continuing efforts to improve insect-baculovirus expression for producing protein therapeutics, key limitations including cell lysis and the lack of homogeneous humanized glycosylation still remain. The field has started to see a movement toward virus-less gene expression approaches, notably the use of clustered regularly interspaced short palindromic repeats to address these shortcomings. This review highlights recent technological advances that are realizing the transformative potential of insect cells for the manufacturing and development of protein therapeutics.

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The female-biased factor VGLL3 drives cutaneous and systemic autoimmunity

Billi¹,

Gharaee−Kermani

Fullmer³

et al. 2019

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Compliance with antipsychotic medication: From theory to practice

Hughes¹,

Hill²,

Budd³

1997

J. Mental Health

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Brett Hill

The Intermucosal Connection between the Mouth and Gut in Commensal Pathobiont-Driven Colitis

Engineering Virus-like Particles for Antigen and Drug Delivery

The Coming Age of Insect Cells for Manufacturing and Development of Protein Therapeutics

The female-biased factor VGLL3 drives cutaneous and systemic autoimmunity

Compliance with antipsychotic medication: From theory to practice

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