Enforced expression of Tbx1 in fetal thymic epithelial cells antagonizes thymus organogenesis

Enforced expression of Tbx1 in fetal thymic epithelial cells antagonizes thymus organogenesis Kim T. Cardenas The thymus and parathyroid glands originate from organ-specific domains of 3rd pharyngeal pouch (PP) endoderm. At embryonic day 11.5 (E11.5), the ventral thymus and dorsal parathyroid domains can be identified by Foxn1 and Gcm2 expression respectively. Neural crest cells, (NCCs) play a role in regulating patterning of 3rd PP endoderm. In addition, pharyngeal endoderm influences fate determination via secretion of Sonic hedgehog (Shh), a morphogen required for Gcm2 expression and generation of the parathyroid domain. Gcm2 is a downstream target of the transcription factor Tbx1, which in turn is positively regulated by Shh. Although initially expressed throughout pharyngeal pouch endoderm, Tbx1 expression is excluded from the thymus-specific domain of the 3rd PP by E10.5, but persists in the parathyroid domain. Based on these observations, we hypothesized that Tbx1 expression is non-permissive for thymus fate specification and that enforced expression of Tbx1 in the fetal thymus would impair thymus development. To test this hypothesis, we generated knock-in mice containing a Cre-inducible allele that allows for tissue-specific Tbx1 expression. Expression of the R26iTbx1 allele in fetal and adult thymus using Foxn1Cre resulted in severe thymus hypoplasia throughout ontogeny that persisted in the adult. Thymic epithelial cell (TEC) development was impaired as determined by immunohistochemical and FACS analysis of various differentiation markers. The relative level of Foxn1 expression in fetal TECs was significantly reduced. TECs in R26iTbx1/+ thymi assumed an almost universal expression of Plet-1, a marker associated with a TEC stem/progenitor cell fate. In addition, embryonic R26iTbx1/+ mice develop a perithymic mesechymal capsule that appears expanded compared to control littermates. Interestingly, thymi from neonatal and adult R26iTbx1/+ but not R26+/+ mice were encased in adipose tissue. This thymic phenotype also correlated with a decrease in thymocyte cellularity and aberrant thymocyte differentiation. The results to date support the conclusion that enforced expression of Tbx1 in TECs antagonizes their differentiation and prevents normal organogenesis via both direct and indirect effects.

The role of CD1d in adipogenesis

Atherosclerosis-associated coronary heart disease is the number one cause of death in the western society, and often triggered by metabolic disorders, such as hyperlipidemia, hypertension, obesity, and diabetes. The CD1 molecules are a group of evolutionarily conservative transmembrane proteins that have recently emerged as novel lipid-binding and transporting molecules. The current study was aimed at illustrating the role of CD1d in regulation of lipid metabolism and adipogenesis. In stably transfected smooth muscle cells where CD1d is overexpressed via a pCMV promoter, high levels of binding of the oxysterol 7-ketocholesterol was found. Adipogenic treatment induces the cells to transdifferentiate into an adipocyte-like morphology. This adipocyte morphology of CD1d transfected SMCs strongly resembles that of the pre-adipocytes 3T3-L1 cells grown in the same adipogenic media. Adipogenic treatment of CD1d transfected 3T3-L1 cells led to an increased accumulation of lipids compared to mock transfected cells. Induction of adipogenic gene expression and activation, such as PPARγ and lipoprotein lipase (LPL), was achieved in adipogenically treated smooth muscle cells as well as 3T3-L1 cells with overexpression of CD1d. For determination of the role of CD1d in regulation of adipogenesis, a CD1d transgenic mouse strain was created using the CD1d-smooth muscle promoter construct. Compared to wild type control mice matched in age and sex, the transgenic mice show an age-dependent increase in abdominal and visceral fat tissue. Histopathological examination demonstrated marked enlargement of adipocytes in the transgenic fat tissue which otherwise remained a normal fat tissue structure. Immunohistochemical analysis of CD1d expression in the fat tissue revealed much stronger membrane CD1d immunostaining in the transgenic tissue than the wild type fat tissue. Under normal chow diets, CD1d-transgenic mice also developed fatty livers. In conclusion, CD1d serves as a regulator of lipid metabolism, which may transducer signals from oxysterols to induce expression of genes important in lipogenesis. These experimental results point to a novel mechanism by which CD1d mediates lipid metabolism in adipose tissue and contributes to the development of obesity. ^

Obesity and risk of multiple myeloma: A case-control study

Introduction. Several studies have reported a positive association of body mass index (BMI) with multiple myeloma; however, the period of adulthood where BMI is most important remains unclear. In addition, it is well known that body fat is associated with both sex-steroid hormone storage and with increasing insulin levels; therefore, it was hypothesized that the association between obesity and multiple myeloma may be attributed to increased aromatization of androgen in adipose tissue. Objective. The overall objective of this case-control study was to determine whether multiple myeloma cases had higher BMI and greater adult weight gain relative to healthy controls. In addition, we tested the hypothesis that hormone replacement therapy use among women will further increase the association between BMI and risk of multiple myeloma. This study used data from a pilot case-control study at M.D. Anderson Cancer Center (MDACC), entitled Etiology of multiple myeloma, directed by Dr. Sara Strom and Dr. Sergio Giralt. Methods. The pilot study recruited a total of 122 cases of histopathologically confirmed multiple myeloma from MDACC. Controls (n=183) were selected from a database of random digit dialing controls accrued in the Department of Epidemiology at MDACC and were frequency matched to the cases on age (±5 years), gender, and race/ethnicity. Demographic and risk factor information were obtained from all participants who completed a self-administered questionnaire. Items included in the questionnaire include demographic information, height and weight at age 25, 40 and current/diagnosis, medical history, family history of cancer, smoking and alcohol use. Statistical analysis. Initial descriptive analysis included Student's t-test and Pearson's chi-squared tests. Odds ratios and 95% confidence intervals were calculated to quantify the association between the variables of interest and multiple myeloma. A multivariable model will be developed using unconditional logistic regression. Results. MM cases were 1.79 times (95% CI=0.99-3.32) more likely to have been overweight or obese (BMI > 25 kg/m2) at age 25 relative to healthy controls after controlling for age, gender, race/ethnicty, education and family history of cancer. Being overweight or obese at age 40 was not significantly associated with mutliple myeloma risk (OR=1.42, 95% CI=0.86-2.34) nor was being overweight or obses at diagnosis (OR=1.43, 95% CI=0.78, 2.63). We observed a statistically significant 2-fold increased odds of multiple myeloma in individuals who gained more than 4.7 kg during between 25 and 40 years (OR=1.97, 95% CI=1.15-3.39). When assessing HRT as a modifier of the BMI and multiple myeloma association among women (N=123), no association between obesity and MM status was observed among women who have never used HRT (OR=0.60, 95% CI=0.23-1.61; n=73). Yet among women who have ever used HRT (n=50), being overweight or obese was associated with an increase in MM risk (OR=2. 93, 95% CI=0.81-10.6) after adjusting for age; however, the association was not statistically significant. Significance. This study provides further evidence that increased BMI increases the risk of multiple myeloma. Furthermore, among women, HRT use may modify risk of disease. ^