Catharina Alam scite author profile

Aims/hypothesis Microbial factors influence the development of diabetes in NOD mice. Studies in germ-free animals have revealed important roles of microbiota in the regulation of Th17 and forkhead box P3 (FOXP3) + T regulatory (Treg) activation in the intestine. However, the effects of intestinal microbiota in immune regulation and diabetes development in NOD mice are still poorly understood. Methods A colony of germ-free NOD mice was established to evaluate the effects of intestinal microbiota on regulatory immunity in the gut, and on the development of insulitis and diabetes in NOD mice. Results Diabetes developed in roughly equal numbers in germ-free and specific pathogen-free NOD mice. Insulitis was accentuated in germ-free NOD mice; yet insulin preservation was unaltered. Germ-free NOD mice showed increased levels of Il17 (also known as Il17a) mRNA in the colon, and of Th17 and Th1 cells in the mesenteric and pancreatic lymph nodes, while Foxp3 mRNA and FOXP3 + Tregs were reduced. In the islet infiltrates, FOXP3 + CD4 + T cells were slightly increased in germ-free mice. B cells appeared less activated in the peritoneum and were less abundant in islet infiltrates. Conclusions/interpretation These results indicate that lack of intestinal microbiota promotes an imbalance between Th1, Th17 and Treg differentiation in the intestine. This imbalance is associated with accelerated insulitis, but intact recruitment of FOXP3 + Tregs into islets, suggesting: (1) a microbial dependence of local induction of Treg in the gut and draining lymph nodes; but (2) a potentially compensatory function of naturally occurring Tregs in the islets, which may help control diabetogenic T cells.

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Sphingosine Kinase as an Oncogene: Autocrine Sphingosine 1-Phoshate Modulates ML-1 Thyroid Carcinoma Cell Migration by a Mechanism Dependent on Protein Kinase C-α and ERK1/2

Bergelin

Blom

Heikkilä

et al. 2008

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Sphingosine 1-phosphate (S1P) induces migration of the human thyroid follicular carcinoma cell line ML-1 by activation of S1P(1) and S1P(3) receptors, G(i) proteins, and the phosphatidylinositol 3-kinase-Akt pathway. Because sphingosine kinase isoform 1 (SK) recently has been implicated as an oncogene in various cancer cell systems, we investigated the functions of SK in the migration, proliferation and adhesion of the ML-1 cell line. SK overexpressing ML-1 cells show an enhanced secretion of S1P, which can be attenuated, by inhibiting SK activity and a multidrug-resistant transport protein (ATP-binding cassette transporter). Furthermore, overexpression of SK enhances serum-induced migration of ML-1 cells, which can be attenuated by blocking ATP-binding cassette transporter and SK, suggesting that the migration is mediated by autocrine signaling through secretion of S1P. Inhibition of protein kinase C alpha, with both small interfering RNA (siRNA) and small molecular inhibitors attenuates migration in SK overexpressing cells. In addition, SK-overexpressing cells show an impaired adhesion, slower cell growth, and an up-regulation of ERK1/2 phosphorylation, as compared with cells expressing a dominant-negative SK. Taken together, we present evidence suggesting that SK enhances migration of ML-1 cells by an autocrine mechanism and that the S1P-evoked migration is dependent on protein kinase C alpha, ERK1/2, and SK.

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Ly6C supports preferential homing of central memory CD8⁺ T cells into lymph nodes

et al. 2011

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Ly6C is a murine cell-surface antigen expressed by plasma cells, subsets of myeloid cells and many T cells, including memory T cells. We previously documented that Ly6C crosslinking induces LFA-1 clustering on naïve CD8 1 T cells. Here, we show that in vitro and in vivo differentiation of naïve CD8 1 T cells into central (Tcm) but not effector (Tem) memory T cells enhances Ly6C expression, and its crosslinking induces strong LFA-1 clustering on Tcm. Blocking Ly6C function inhibits in vivo Tcm homing to LNs as efficiently as blocking L-selectin but it does not potentiate the inhibition provided by blocking either L-selectin or LFA-1 function. Thus, Ly6C, L-selectin and LFA-1 all appear to be part of a common homing pathway. In vitro, Ly6C crosslinking enhances Tcm adherence to ICAM-1 in the presence of CCL21. In summary, Tcm homing involves Ly6C, in addition to L-selectin and LFA-1, and appears to potentiate firm adhesion of Tcm to ICAM-1 in synergy with a chemokine. We propose that Ly6C augments Tcm compartmentalization into LNs during their homing.

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Catharina Alam

Keratins in health and disease

Effects of a germ-free environment on gut immune regulation and diabetes progression in non-obese diabetic (NOD) mice

Sphingosine Kinase as an Oncogene: Autocrine Sphingosine 1-Phoshate Modulates ML-1 Thyroid Carcinoma Cell Migration by a Mechanism Dependent on Protein Kinase C-α and ERK1/2

Ly6C supports preferential homing of central memory CD8⁺ T cells into lymph nodes

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Catharina Alam

Keratins in health and disease

Effects of a germ-free environment on gut immune regulation and diabetes progression in non-obese diabetic (NOD) mice

Sphingosine Kinase as an Oncogene: Autocrine Sphingosine 1-Phoshate Modulates ML-1 Thyroid Carcinoma Cell Migration by a Mechanism Dependent on Protein Kinase C-α and ERK1/2

Ly6C supports preferential homing of central memory CD8+ T cells into lymph nodes

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Ly6C supports preferential homing of central memory CD8⁺ T cells into lymph nodes