Rosalba Sacca scite author profile

Lymphotoxin alpha (LT alpha)-deficient mice revealed critical roles for LT alpha in lymphoid organogenesis, but it is not clear whether LT alpha functions through an LT alpha homotrimer (LT alpha3) or LT alpha/beta heterotrimers. We generated LTbeta-deficient mice and found them to lack Peyer's patches, peripheral lymph nodes, splenic germinal centers, and follicular dendritic cells. Unlike LT alpha-deficient mice, LT beta-deficient mice had cervical and mesenteric lymph nodes. Furthermore, the mesenteric lymph nodes had germinal center-like regions, although these structures appeared to lack follicular dendritic cells. The absence of cervical and mesenteric lymph nodes in LT alpha-deficient mice, and yet their presence in LT beta-deficient mice and in mice deficient in tumor necrosis factor receptor types I and II, suggest that LT alpha3 may signal via an as yet unidentified receptor.

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Lymphoid Tissue Homing Chemokines Are Expressed in Chronic Inflammation

Hjelmström

Fjell

Nakagawa

et al. 2000

The American Journal of Pathology

180

147

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Secondary lymphoid tissue chemokine (SLC) and B lymphocyte chemoattractant (BLC) are homing chemokines that have been implicated in the trafficking of lymphocytes and dendritic cells in lymphoid organs. Lymphotoxin-␣ (LT␣), a cytokine crucial for development of lymphoid organs, is important for expression of SLC and BLC in secondary lymphoid organs during development. Here we report that transgenic expression of LT␣ induces inflammation and ectopic expression of SLC and BLC in the adult animal. LT␤ was not necessary for induction of BLC and SLC in inflamed tissues, whereas, in contrast, tumor necrosis factor receptor-1 was found to be important for the LT␣-mediated induction of these chemokines. The ectopic expression of LT␣ is associated with a chronic inflammation that closely resembles organized lymphoid tissue and this lymphoid neogenesis can also be seen in several chronic inflammatory diseases, including in the pancreas of the prediabetic nonobese diabetic (NOD) mouse. Expression of SLC was also observed in the pancreas of prediabetic NOD mice. This study implicates BLC and SLC in chronic inflammation and presents further evidence that LT␣ orchestrates lymphoid organogenesis both during development and in inflammatory processes.

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Knockout of STriatal enriched protein tyrosine phosphatase in mice results in increased ERK1/2 phosphorylation

Venkitaramani

Paul

Zhang

et al. 2008

Synapse

105

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STriatal Enriched protein tyrosine Phosphatase (STEP) is a brain-specific protein that is thought to play a role in synaptic plasticity. This hypothesis is based on previous findings demonstrating a role for STEP in the regulation of the extracellular signal-regulated kinase1/2 (ERK1/2). We have now generated a STEP knockout mouse and investigated the effect of knocking out STEP in the regulation of ERK1/2 activity. Here, we show that the STEP knockout mice are viable and fertile and have no detectable cytoarchitectural abnormalities in the brain. The homozygous knockout mice lack the expression of all STEP isoforms, whereas the heterozygous mice have reduced STEP protein levels when compared with the wild-type mice. The STEP knockout mice show enhanced phosphorylation of ERK1/2 in the striatum, CA2 region of the hippocampus, as well as central and lateral nuclei of the amygdala. In addition, the cultured neurons from KO mice showed significantly higher levels of pERK1/2 following synaptic stimulation when compared with wild-type controls. These data demonstrate more conclusively the role of STEP in the regulation of ERK1/2 activity.

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Mediators of inflammation

Sacca

Cuff

Ruddle

1997

Current Opinion in Immunology

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Rosalba Sacca

The c-fms proto-oncogene product is related to the receptor for the mononuclear phagocyte growth factor, CSF 1

Distinct Roles in Lymphoid Organogenesis for Lymphotoxins α and β Revealed in Lymphotoxin β–Deficient Mice

Lymphoid Tissue Homing Chemokines Are Expressed in Chronic Inflammation

Knockout of STriatal enriched protein tyrosine phosphatase in mice results in increased ERK1/2 phosphorylation

Mediators of inflammation

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