Exposure of coastal dune vegetation to plastic bag leachates: A neglected impact of plastic litter

The presence of plastic bags on coastal dunes worldwide is well documented. Plastic bags contain additives that during rainfall events can leach out from bags into sand dune and be absorbed by seeds and roots of plants. Dune plants play a fundamental role in dune system formation, yet the possible impact of bag leaching on their establishment and development has been neglected. We assessed in laboratory whether (i) not biodegradable bags (high-density polyethylene, PE) and new generation of compostable bags (Mater-bi®, MB) would influence via leaching water chemical/physical properties and (ii) leachates would affect germination and seedling growth using Thinopyrum junceum and Glaucium flavum as models. Leachates were obtained from different amounts of not-exposed and bags exposed to beach or marine conditions simulating various pollution degrees (none, low, intermediate and high pollution). All water variables were affected by leaching. The magnitude of these alterations depended on bag type and environmental exposure. Seeds of T. junceum treated with the high concentration of marine-exposed MB bag leachate germinated later than controls while those of G. flavum treated with the remaining leachates germinated earlier. For both species, leachates from the low concentration of PE and MB marine-exposed bags increased seed germinability. A short radicle was observed in T. junceum seedlings treated with not-exposed MB bag leachates. Glaucium flavum seedlings treated with beach- and marine-exposed PE bags and not-exposed MB bags leachates showed a greater below-aboveground length ratio and those grown with the low concentration of not-exposed PE bag leachate had a longer hypocotyl compared to controls. Leachates from the high concentration of PE and MB bag caused seedling anomalies in both species. These findings indicate that not biodegradable and compostable bags may interact with abiotic/biotic factors and affect via leaching germination phenology, seedling establishment and plant interactions with consequences on dune community structure

Combined effect of plastic litter and increased atmospheric nitrogen deposition on vegetative propagules of dune plants: a further threat to coastal ecosystems

Large amounts of non-biodegradable plastics are currently deposited on beach-dune systems, and biodegradable plastics could enter these already declining habitats in coming years. Yet, the impacts of plastics on vegetative recruitment, a plant strategy playing a key role in dune stabilization, are unknown. Whether these pollutants interact with increased atmospheric nitrogen (N) deposition, a major global driver of plant biodiversity loss, in affecting plant communities of such nutrient-poor habitats, and how plant-plant interactions mediate their effects need to be explored. In a one-year field experiments, we examined individual and combined effects of plastic (non-biodegradable, biodegradable), N deposition (ambient, elevated) and biotic condition (no interaction, interaction with a conspecific or with a hetero-specific) on the colonization success and growth of vegetative propagules of dune plants. Thinopyrum junceum and Sporobolus pumilus were chosen as models because they co-occur along Mediterranean dunes and differ in ecological role (dune- vs. non dune-building) and photosynthetic pathway (C3 vs. C4). For both species, survival probability was reduced by non-biodegradable plastic and elevated N by up to 100%. Thinopyrum junceum survival was also reduced by S. pumilus presence. Elevated N and biodegradable plastic reduced T. junceum shoot biomass when grown alone and with a conspecific, respectively; these factors in combination mitigated their negative individual effects on root biomass. Biodegradable plastic increased S. pumilus shoot and root biomass, and in combination with elevated N caused a greater biomass investment in belowground (root plus rhizome) than aboveground organs. Non-biodegradable plastic may be a further threat to dune habitats by reducing plant colonization. Biodegradable plastic and increased N deposition could favour the generalist S. pumilus and hinder the dune-building T. junceum. These findings highlight the urgency of implementing measures for preventing plastic deposition on beaches and reducing N input

Pro-apoptotic and size-reducing effects of protein corona-modulating nano-architectures enclosing platinum prodrug in in vivo oral carcinoma

: The selective and localized delivery of active agents to neoplasms is crucial to enhance the chemotherapeutic efficacy while reducing the associated side effects. The encapsulation of chemotherapeutics in nanoparticles decorated with targeting agents is a strategy of special interest to improve drug delivery. However, serum protein adsorption often compromises the in vivo efficiency of targeting agents, leading to protein corona formation that interferes with the targeting process. Here, the enhanced efficacy of hybrid nano-architectures enclosing a platinum prodrug and decorated with a customized peptide (NAs-cisPt-Tf2) is demonstrated by employing alternative in vivo models of oral carcinoma. The peptide binds to transferrin and modulates the protein corona formation on NAs-cisPt-Tf2, supporting the identification of its receptor. Optimized chorioallantoic membrane cancer models (CAMs) enabled a thorough assessment of the tumor-suppressing effect of NAs-cisPt-Tf2 as well as the quantitative evaluation of angiogenesis and cell cycle associated mechanisms. The treatment strategy resulted in a significant tumor volume reduction coupled with anti-angiogenic and pro-apoptotic effects inferred from the downregulation of the vascular endothelial growth factor gene and increased expression of cleaved caspase-3. Overall, this study provides a potentially effective tumor-targeted approach for a non-invasive management of oral carcinoma

Pathological features and molecular phenotype of mmtv like‐positive feline mammary carcinomas

In the last few years MMTV‐like nucleotide sequences were detected in some feline and canine mammary tumours. Due to the confirmed role of cats in the epidemiology of the MMTV‐like virus, the aim of this study was to investigate the main pathological features of positive feline mammary carcinomas (FMCs). Twenty‐four FMCs were collected at the University of Bologna, submitted to laser microdissection and analysed by nested fluorescence‐PCR using primer sets specific for MMTV env sequence. For immunohistochemistry, an antibody against MMTV protein 14 (p14) was used. MMTV‐like sequences were detected in three out of 24 FMCs (12.5%), one tubular carcinoma, one tubulopapillary carcinoma and one ductal carcinoma. All PCR‐positive tumours were also positive for p14. Multiple nucleotide alignment has shown similarity to MMTV ranging from 98% to 100%. All the 102 examined FMCs were submitted to immunohistochemistry for molecular pheno-typing. Of the nine MMTV‐like positive FMCs, six were basal‐like and three luminal‐like. Our results demonstrate MMTV‐like sequences and protein in FMCs of different geographic areas. Molecular phenotyping could contribute to understand the possible role of MMTV‐like virus in FMC tumor biology

Rifiuti spiaggiati: problema ambientale e di sanità pubblica

L’accumulo sulle spiagge di materiale naturale o antropico raramente è stato esplorato da una prospettiva “One Health”, che ne consideri l’impatto ambientale e sanitario. In questo lavoro, il modello concettuale Determinanti - Pressioni - Stato - Impatti - Risposte (DPSIR) è stato adattato al problema dei rifiuti spiaggiati, ed applicato ad un comune costiero italiano (Nord Toscana) a forte vocazione turistica

New insights in the expression of stromal caveolin 1 in breast cancer spread to axillary lymph nodes

Recent evidence suggests that a loss of expression of caveolin in the stromal compartment (sCav-1) of human invasive breast carcinoma (IBC) may be a predictor of disease recurrence, metastasis and poor outcome. At present, there is little knowledge regarding the expression of sCav-1 at the metastatic sites. We therefore studied sCav-1 expression in IBCs and in their axillary lymph nodes to seek a correlation with cancer metastasis. 189 consecutive invasive IBCs (53 with axillary lymph node metastases and 136 without) were studied by immunohistochemistry, using a rabbit polyclonal anti-Cav-1 antibody. In IBCs sCav-1 was evaluated in fibroblasts scattered in the tumor stroma whereas in lymph nodes sCav-1 was assessed in fibroblast-like stromal cells. For the first time, we observed a statistically significant progressive loss of sCav-1 from normal/reactive axillary lymph nodes of tumors limited to the breast to metastatic axillary lymph nodes, through normal/reactive axillary lymph nodes of tumors with axillary metastatic spread. These data indicate that Cav-1 expressed by the stromal compartment of lymph nodes, somehow, may possibly contribute to metastatic spread in IBC

Detriti spiaggiati come possibile veicolo di virus: contaminazione e sopravvivenza

Le spiagge sono interessate dall’accumulo di biomassa e rifiuti antropici. Ciò comporta non solo un impatto ambientale ed economico ma anche effetti sulla salute derivanti dall’esposizione a microorganismi potenzialmente patogeni. La contaminazione microbica delle spiagge è stata studiata principalmente considerando funghi e batteri, mentre esistono pochi dati sui virus. Nel presente lavoro, gli aspetti legati al rischio virale per la salute sono stati affrontati valutando la presenza di virus nel materiale spiaggiato e nella sabbia sottostante e la loro sopravvivenza nella sabbia e nell’acqua di mare