Maternal programming by high-energy diets primes ghrelin sensitivity in the offspring of rats exposed to chronic immobilization stress.

Maternal overnutrition during pregnancy leads to metabolic and immune alterations, including obesity, hyperphagia, and central and peripheral inflammation in offspring. Exposure to high-energy diets during pregnancy primes ghrelin sensitivity to overfeeding in the offspring at early stages of life. Overfeeding has also been partially related to the early stages of chronic stress.

Soluble MICB in Plasma and Urine Explains Population Expansions of NKG2DCD4 T Cells Inpatients with Juvenile-Onset Systemic Lupus Erythematosus.

Abnormal NKG2D ligand expression has been implicated in the initiation and maintenance of various auto-inflammatory disorders including systemic lupus erythematosus (SLE). This study's goal was to identify the cellular contexts providing NKG2D ligands for stimulation of the immunosuppressive NKG2DCD4 T cell subset that has been implicated in modulating juvenile-onset SLE disease activity. Although previous observations with NKG2DCD4 T cells in healthy individuals pointed towards peripheral B cell and myeloid cell compartments as possible sites of enhanced NKG2DL presence, we found no evidence for a disease-associated increase of NKG2DL-positivity among juvenile-onset SLE B cells and monocytes.

Control of Tumor Initiation by NKG2D Naturally Expressed on Ovarian Cancer Cells.

Cancer cells may co-opt the NKG2D lymphocyte receptor to complement the presence of its ligands for autonomous stimulation of oncogenic signaling. Previous studies raise the possibility that cancer cell NKG2D may induce high malignancy traits, but its full oncogenic impact is unknown. Using epithelial ovarian cancer as model setting, we show here that ex vivo NKG2D cancer cells have stem-like capacities, and provide formal in vivo evidence linking NKG2D stimulation with the development and maintenance of these functional states.

Autonomous stimulation of cancer cell plasticity by the human NKG2D lymphocyte receptor coexpressed with its ligands on cancer cells.

The stimulatory NKG2D receptor on lymphocytes promotes tumor immune surveillance by targeting ligands selectively induced on cancer cells. Progressing tumors counteract by employing tactics to disable lymphocyte NKG2D. This negative dynamic is escalated as some human cancer cells co-opt expression of NKG2D, thereby complementing the presence of its ligands for autonomous stimulation of oncogenic signaling.

Effects on tumor development and metastatic dissemination by the NKG2D lymphocyte receptor expressed on cancer cells.

The stimulatory NKG2D lymphocyte receptor together with its tumor-associated ligands enable the immune system to recognize and destroy cancer cells. However, with dynamic changes unfolding, cancers exploit NKG2D and its ligands for immune evasion and suppression. Recent findings have added yet another functional dimension, wherein cancer cells themselves co-opt NKG2D for their own benefit to complement the presence of its ligands for self-stimulation of parameters of tumorigenesis.