Thomas Jamieson scite author profile

SummaryHepatocytes and cholangiocytes self renew following liver injury. Following severe injury hepatocytes are increasingly senescent, whether Hepatic Progenitor Cells (HPCs) then contribute to liver regeneration is unclear. Here, we describe a mouse model where Mdm2 is inducibly deleted in over 98% of hepatocytes, causing apoptosis, necrosis and senescence with nearly all hepatocytes expressing p21. This results in florid HPC activation, which is necessary for survival, followed by complete, functional liver reconstitution. HPCs isolated from genetically normal mice, using cell surface markers, were highly expandable and phenotypically stable in vitro. These HPCs were transplanted into adult mouse livers where hepatocyte Mdm2 was repeatedly deleted, creating a non-competitive repopulation assay. Transplanted HPCs contributed significantly to restoration of liver parenchyma, regenerating hepatocytes and biliary epithelia, highlighting their in vivo lineage potency. HPCs are therefore a potential future alternative to hepatocyte or liver transplantation for liver disease.

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The chemokine receptor D6 limits the inflammatory response in vivo

Jamieson

et al. 2005

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How the inflammatory response is initiated has been well defined but relatively little is known about how such responses are resolved. Here we show that the D6 chemokine receptor is involved in the post-inflammatory clearance of beta-chemokines from cutaneous sites. After induction of inflammation by phorbol esters, wild-type mice showed a transient inflammatory response. However, in D6-deficient mice, an excess concentration of residual chemokines caused a notable inflammatory pathology with similarities to human psoriasis. These results suggest that D6 is involved in the resolution of the cutaneous inflammatory response.

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mTORC1-mediated translational elongation limits intestinal tumour initiation and growth

Faller

Jackson

Knight

et al. 2014

Nature

270

296

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Inactivation of APC is a strongly predisposing event in the development of colorectal cancer1,2, prompting us to search for vulnerabilities specific to cells that have lost APC function. Signalling through the mTOR pathway is known to be required for epithelial cell proliferation and tumour growth3-5 and the current paradigm suggests that a critical function of mTOR activity is to upregulate translational initiation through phosphorylation of 4EBP16,7. This model predicts that the mTOR inhibitor rapamycin, which does not efficiently inhibit 4EBP18, would be ineffective in limiting cancer progression in APC deficient lesions. Here we show that mTORC1 activity is absolutely required for the proliferation of APC deficient (but not wild type) enterocytes, revealing an unexpected opportunity for therapeutic intervention. Although APC deficient cells show the expected increases in protein synthesis, our studies reveals that it is translation elongation, and not initiation, which is the rate-limiting component. Mechanistically, mTORC1 mediated inhibition of eEF2 kinase is required for the proliferation of APC deficient cells. Importantly, treatment of established APC deficient adenomas with rapamycin (which can target eEF2 through the mTORC1 – S6K – eEF2K axis) causes tumour cells to undergo growth arrest and differentiation. Taken together our data suggest that inhibition of translation elongation using existing, clinically approved drugs such as the Rapalogs, would provide clear therapeutic benefit for patients at high-risk of developing colorectal cancer.

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Inhibition of CXCR2 profoundly suppresses inflammation-driven and spontaneous tumorigenesis

Jamieson¹,

Clarke²,

Steele³

et al. 2012

J. Clin. Invest.

333

292

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The chemokine receptor CXCR2 is a key mediator of neutrophil migration that also plays a role in tumor development. However, CXCR2 influences tumors through multiple mechanisms and might promote or inhibit tumor development depending on context. Here, we used several mouse models of spontaneous and inflammation-driven neoplasia to define indispensable roles for CXCR2 in benign and malignant tumors. CXCR2-activating chemokines were part of the secretome of cultured primary benign intestinal adenomas (Apc Min/+ ) and highly expressed by all tumors in all models. CXCR2 deficiency profoundly suppressed inflammation-driven tumorigenesis in skin and intestine as well as spontaneous adenocarcinoma formation in a model of invasive intestinal adenocarcinoma (AhCreER;Apc fl/+ ;Pten fl/fl mice). Pepducin-mediated CXCR2 inhibition reduced tumorigenesis in Apc Min/+ mice. Ly6G + neutrophils were the dominant source of CXCR2 in blood, and CXCR2 deficiency attenuated neutrophil recruitment. Moreover, systemic Ly6G + cell depletion purged CXCR2-dependent tumor-associated leukocytes, suppressed established skin tumor growth and colitis-associated tumorigenesis, and reduced Apc Min/+ adenoma formation. CXCR2 is thus a potent protumorigenic chemokine receptor that directs recruitment of tumor-promoting leukocytes into tissues during tumor-inducing and tumor-driven inflammation. Similar leukocyte populations were also found in human intestinal adenomas, which suggests that CXCR2 antagonists may have therapeutic and prophylactic potential in the treatment of cancer.

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TGFβ inhibition restores a regenerative response in acute liver injury by suppressing paracrine senescence

et al. 2018

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One Sentence Summary:Inhibiting injury-induced senescence mediated by TGFβ signaling in regenerative epithelium improves liver regeneration. Accessible Summary:The liver is a paradigm of organ regeneration, however regeneration may fail in a previously normal liver following acute severe injury such as acetaminophen poisoning. We show that, a process with prevents proliferation termed senescence, which is classically associated with aging and carcinogenesis, stops the liver's regenerative cells. This senescence can be spread from cell to cell by the signaling molecule TGFβ. When TGFβ signaling is inhibited during acetaminophen poisoning in mice, senescence is impeded, regeneration accelerates, and survival is improved. Therefore targeting senescence induced by acute tissue injury is an attractive therapeutic approach to improve regeneration. Abstract:Liver injury results in rapid regeneration through hepatocyte proliferation and hypertrophy.However, after acute severe injury, such as acetaminophen poisoning, effective regeneration may fail. We investigated how senescence may underlie this regenerative failure. In human acute liver disease, and murine models, p21-dependent hepatocellular senescence was proportionate to disease severity and was associated with impaired regeneration. In an acetaminophen injury mouse model, a transcriptional signature associated with the induction 4 of paracrine senescence was observed within twenty four hours, and was followed by one of impaired proliferation. In mouse genetic models of hepatocyte injury and senescence we observed transmission of senescence to local uninjured hepatocytes. Spread of senescence depended upon macrophage-derived TGFβ1 ligand. In acetaminophen poisoning, inhibition of TGFβ receptor 1 (TGFβR1) improved mouse survival. TGFβR1 inhibition reduced senescence and enhanced liver regeneration even when delivered after the current therapeutic window for acetaminophen poisoning. This mechanism, in which injury-induced senescence impairs liver regeneration, is an attractive therapeutic target for developing treatments for acute liver failure.

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Thomas Jamieson

Hepatic progenitor cells of biliary origin with liver repopulation capacity

The chemokine receptor D6 limits the inflammatory response in vivo

mTORC1-mediated translational elongation limits intestinal tumour initiation and growth

Inhibition of CXCR2 profoundly suppresses inflammation-driven and spontaneous tumorigenesis

TGFβ inhibition restores a regenerative response in acute liver injury by suppressing paracrine senescence

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