1.° Caii Plinii Secundi epistolarum libri decem : primi initium et decimi finis desiderantur. — 2.° Ejusdem panegyricus Trajano dictus. — 3.° Latini Pacati Drepanii panegyricus Theodosio dictus. — 4.° Claudii Mamertini Juliano Imperatori gratiarum actio de Consulatu suo. — 5.° Nazarii panegyricus Constantino, Caesari, dictus. — 6.° Eumenii gratiarum actio Constantino, Augusto, Flaviensium nomine. — 7.° Ejusdem panegyricus Constantino, Augusto, dictus. — 8.° Incerti authoris panegyricus Maximiano et Constantino dictus. — 9.° Eumenii panegyricus Constantio, Caesari, dictus. — 10.° Ejusdem oratio pro restaurandis scholis. — 11.° Claudii Mamertini panegyricus Maximiano, Augusto, dictus. — 12.° Genethliacus Maximiani : authore eodem. — 13.° Incerti authoris panegyricus Constantino, Augusto, dictus : finis desideratur.

Bigotianus

1.° Flores et notabilia, è Senecae libris ab anonymo collecta. — 2.° M. T. Ciceronis paradoxa. — 3.° Sancti Gregorii Nazianzeni apologeticus de fuga sua in Pontum. — 4.° Ejusdem oratio de nativitate Christi. — 5.° Ejusdem oratio de baptismo. — 6.° Sancti Hieronymi liber de viris illustribus : accedit Gennadii de eodem argumento liber, cujus finis desideratur. — Hujusce codicis pars decimo quarto, pars decimo quinto saeculo videtur exarata.

Mazarinaeus

1.° Abstractiones è libris Senecae. — 2.° Marbodi, Rhedonensis, carmen de lapidibus pretiosis, cum anonymi commentario. — 3.° Nonnulla ad historiam naturalem pertinentia. — 4.° Anonymus de Sacramentis. — 5.° Fragmenta ad opticam pertinentia.

Mazarinaeus

Delta-like 4 is the essential, nonredundant ligand for Notch1 during thymic T cell lineage commitment.

Thymic T cell lineage commitment is dependent on Notch1 (N1) receptor-mediated signaling. Although the physiological ligands that interact with N1 expressed on thymic precursors are currently unknown, in vitro culture systems point to Delta-like 1 (DL1) and DL4 as prime candidates. Using DL1- and DL4-lacZ reporter knock-in mice and novel monoclonal antibodies to DL1 and DL4, we show that DL4 is expressed on thymic epithelial cells (TECs), whereas DL1 is not detected. The function of DL4 was further explored in vivo by generating mice in which DL4 could be specifically inactivated in TECs or in hematopoietic progenitors. Although loss of DL4 in hematopoietic progenitors did not perturb thymus development, inactivation of DL4 in TECs led to a complete block in T cell development coupled with the ectopic appearance of immature B cells in the thymus. These immature B cells were phenotypically indistinguishable from those developing in the thymus of conditional N1 mutant mice. Collectively, our results demonstrate that DL4 is the essential and nonredundant N1 ligand responsible for T cell lineage commitment. Moreover, they strongly suggest that N1-expressing thymic progenitors interact with DL4-expressing TECs to suppress B lineage potential and to induce the first steps of intrathymic T cell development.

Impaired glucose metabolism in the heart of obese Zucker rats after treatment with phorbol ester.

OBJECTIVE: To investigate the influence of obesity on the regulation of myocardial glucose metabolism following protein kinase C (PKC) activation in obese (fa/fa) and lean (Fa/?) Zucker rats. DESIGN: Isolated hearts obtained from 17-week-old lean and obese Zucker rats were perfused with 200 nM phorbol 12-myristate 13-acetate (PMA) for different time periods prior to the evaluation of PKC and GLUT-4 translocation. For metabolic studies isolated hearts from 48 h starved Zucker rats were perfused with an erythrocytes-enriched buffer containing increased concentrations (10-100 nM) of PMA. MEASUREMENTS: Immunodetectable PKC isozymes and GLUT-4 were determined by Western blots. Glucose oxidation and glycolysis were evaluated by measuring the myocardial release of 14CO2 and 3H2O from [U-14C]glucose and [5-3H]glucose, respectively. RESULTS: PMA (200 nM) induced maximal translocation of ventricular PKCalpha from the cytosol to the membranes within 10 min. This translocation was 2-fold lower in the heart from obese rats when compared to lean rats. PMA also induced a significant translocation of ventricular GLUT-4 from the microsomal to the sarcolemmal fraction within 60 min in lean but not in obese rats. Rates of basal cardiac glucose oxidation and glycolysis in obese rats were approximately 2-fold lower than those of lean rats. Perfusion with increasing concentrations of PMA (10-100 nM) led to a significant decrease of cardiac glucose oxidation in lean but not in obese rats. CONCLUSION: Our results show that in the heart of the genetically obese Zucker rat, the impairment in PKCalpha activation is in line with a diminished activation of GLUT-4 as well as with the lack of PMA effect on glucose oxidation.