Proteomic and functional analysis identifies galectin-1 as a novel regulatory component of the cytotoxic granule machinery.

Secretory granules released by cytotoxic T lymphocytes (CTLs) are powerful weapons against intracellular microbes and tumor cells. Despite significant progress, there is still limited information on the molecular mechanisms implicated in target-driven degranulation, effector cell survival and composition and structure of the lytic granules. Here, using a proteomic approach we identified a panel of putative cytotoxic granule proteins, including some already known granule constituents and novel proteins that contribute to regulate the CTL lytic machinery. Particularly, we identified galectin-1 (Gal1), an endogenous immune regulatory lectin, as an integral component of the secretory granule machinery and unveil the unexpected function of this lectin in regulating CTL killing activity. Mechanistic studies revealed the ability of Gal1 to control the non-secretory lytic pathway by influencing Fas-Fas ligand interactions. This study offers new insights on the composition of the cytotoxic granule machinery, highlighting the dynamic cross talk between secretory and non-secretory pathways in controlling CTL lytic function.

Distinct effects of short- and long-term type 1 diabetes to the placental extracellular matrix and fetal development in mice.

PURPOSE: We have previously shown that the development of complications in the early pregnant decidua and myometrium in mice correlates with diabetes progression. In the current study, we investigated the influence of diabetes progression on the placental extracellular matrix (ECM) and on fetal development at the end of pregnancy. METHODS: Alloxan-induced type 1 diabetic female mice were bred either 30-50 days after diabetes induction (D) or 90-110D. Fetal and placental weights were registered at the 19th day of pregnancy together with analysis of gene expression, deposition and turnover of the placental ECM. RESULTS: The short-term diabetic group (30-50D) showed elevated embryonic losses and underweight fetuses (89%) with normal weight placentas. In contrast, the long-term group (90-110D) had increased malformations/fetal deaths and underweight fetuses (42%) and heavy placentas (50%). Normal-weight fetuses from the long-term group had placentas with either regular weight and fetal/placental weight ratio or increased weight and low fetal/placental weight ratio. Furthermore, the placentas of the short-term group showed alterations in the synthesis and deposition of collagen types I and V and in the activity of MMP2 whereas placentas of the 90-110D group presented alterations in collagen type III and V and MMP9. CONCLUSIONS: Diabetes progression promoted distinct outcomes in pregnancy. Modifications of both synthesis and turnover of ECM occurred even before changes of placental weight were detected. Adjustment of fetal/placental weight ratio or placental enlargement restored normal growth in part of the fetuses from the long-term group.

The absence of the embryo in the pseudopregnant uterus alters the deposition of some ECM molecules during decidualization in mice.

The embryo-implantation promotes deep changes in the uterus resulting in the formation of a new structure at the maternal-fetal interface, the decidua. Decidualization can also be induced in pseudopregnant rodents resulting in a structure called deciduoma that is morphologically and functionally similar to the decidua. Previous studies from our and other laboratories demonstrate that in rodents, decidualization of the endometrium requires remarkable remodeling of the endometrial extracellular matrix (ECM) that is mainly coordinated by estradiol and progesterone. The influence of the embryo in this process, however, has not yet been investigated. To enlarge the knowledge on this subject, the present study investigates the behavior of a set of ECM molecules, in the absence of paracrine cues originated from the embryo. For that deciduoma was induced in pseudopregnant Swiss mice, and the distribution of collagen types I, III, IV, V and the proteoglycans decorin and biglycan was investigated by immunolabeling from the fifth to the eighth day of pseudopregnancy. It was observed the deposition of collagen types III and IV as well as decorin and biglycan was similar to that previously described by our group in the decidua. However, in the absence of the embryo, some differences occur in the distribution of collagen types I and V, suggesting that beside the major role of ovarian hormones on the endometrial ECM remodeling, molecular signals originated from the conceptus may influence this process.