Expression and functional analysis of murine ryanodine receptor type 3

Ryanodine receptors (RyRs) are intracellular homotetrameric Ca2+-release channels constituting a family of three different isoforms, named RyRl, RyR2 and RyR3. RyRl and RyR2 are highly expressed in skeletal and cardiac muscles respectively, where they localize in the terminal cisternae of the sarcoplasmic reticulum (SR). Although RyRl and RyR2 have been found to be expressed in several other tissues at much lower level than in striated muscles, their major functional role is related to Ca2+-release from the SR following electrical depolarization of the plasma membrane, a process referred to as excitation-contraction (e-c) coupling and known to regulate striated muscle contraction. The third isoform, RyR3, is characterized by a wide pattern of expression, without any specific association to a tissue or a cell-type. The finding that RyR3 is also expressed in mammalian skeletal muscles parallels the presence of two distinct isoforms, o- and P-RyR, in non-mammalian vertebrate skeletal muscles, and suggests that two functionally distinct RyRs may be involved in the regulation of skeletal muscle contraction. The expression of RyR3 was analyzed in murine skeletal muscle from late foetal stages to adult, throughout neonatal phases of development. RyR3 was expressed widely during skeletal muscle post-natal development, disappearing in all muscles analyzed except diaphragm and soleus. RyR3 knockout mice were generated, and contractile properties of skeletal muscles were analyzed. Skeletal muscle contraction in RyR3-/- mice was impaired during the neonatal phase of development. In skeletal muscles isolated from RyR3-1- mice, the twitch elicited by electrical stimulation was strongly depressed. A significant reduction of the contractile activity was also elicited after stimulation with caffeine, an activator of Ca2+-release through RyRs. In the adults, no differences were detected between wild-type and mutant mice. These results are the first demonstrations of a physiological role of RyR3 in excitation-contraction coupling mechanisms of skeletal muscle, and support the model of a two-channel system regulating skeletal muscle contraction. In order to further characterize the RyR3-1- mouse, [3H]ryanodine binding experiments were performed on diaphragm and total hindlimb skeletal muscles from RyR3+/+ and RyR3-1- mice. Preliminary results will be presented and discussed

Germline development in amniotes : a paradigm shift in primordial germ cell specification

In the field of germline development in amniote vertebrates, primordial germ cell (PGC) specification in birds and reptiles remains controversial. Avians are believed to adopt a predetermination or maternal specification mode of PGC formation, contrary to an inductive mode employed by mammals and, supposedly, reptiles. Here, we revisit and review some key aspects of PGC development that channelled the current subdivision, and challenge the position of birds and reptiles as well as the binary' evolutionary model of PGC development in vertebrates. We propose an alternative view on PGC specification where germ plasm plays a role in laying the foundation for the formation of PGC precursors (pPGC), but not necessarily of PGCs. Moreover, inductive mechanisms may be necessary for the transition from pPGCs to PGCs. Within this framework, the implementation of data from birds and reptiles could provide new insights on the evolution of PGC specification in amniotes

A molecular mechanism of symmetry breaking in the early chick embryo

The first obvious sign of bilateral symmetry in mammalian and avian embryos is the appearance of the primitive streak in the future posterior region of a radially symmetric disc. The primitive streak marks the midline of the future embryo. The mechanisms responsible for positioning the primitive streak remain largely unknown. Here we combine experimental embryology and mathematical modelling to analyse the role of the TGFβ-related molecules BMP4 and Vg1/GDF1 in positioning the primitive streak. Bmp4 and Vg1 are first expressed throughout the embryo, and then become localised to the future anterior and posterior regions of the embryo, where they will, respectively, inhibit or induce formation of the primitive streak. We propose a model based on paracrine signalling to account for the separation of the two domains starting from a homogeneous array of cells, and thus for the topological transformation of a radially symmetric disc to a bilaterally symmetric embryo

La valorizzazione del territorio attraverso il recupero del patrimonio storico architettonico. Il caso del silo agrario di Albinia (GR)

Il seguente lavoro di tesi,incentrato sul recupero del silo di Albinia, vuole delineare un possibile approccio multidisciplinare al tema, che tenga conto sia delle potenzialità architettoniche dell’edificio preso in esame, ma che sia anche in grado di rispondere a precise dinamiche di trasformazione urbana e territoriale. L’obiettivo è quello di utilizzare il recupero del silo come driver per la riqualificazione urbana, innescando un meccanismo virtuoso in grano di valorizzare il territorio circostante e che sia economicamente sostenibile

Multiple pyogenic granuloma of the penis in a four-year-old child: a case report

Pyogenic granulomas are common, acquired, benign vascular lesions of the skin and mucous membranes that can develop both spontaneously and traumatically. We present a unique case of a four-year healthy, uncircumcised boy with multiple pyogenic granuloma on the mucous face of the penis foreskin. Although penile multiple pyogenic granulomas have previously been described in adults, there are no reports of similar problems in children. In this patient, the pathogenesis of the lesions is probably trauma related as reported in the anamnesis. Therapeutic options are discussed

Polyethylene bio-degradation by caterpillars of the wax moth Galleria mellonella

Plastics are synthetic polymers derived from fossil oil and largely resistant to biodegradation. Polyethylene (PE) and polypropylene (PP) represent ∼92% of total plastic production. PE is largely utilized in packaging, representing ∼40% of total demand for plastic products (www.plasticseurope.org) with over a trillion plastic bags used every year [1]. Plastic production has increased exponentially in the past 50 years (Figure S1A in Supplemental Information, published with this article online). In the 27 EU countries plus Norway and Switzerland up to 38% of plastic is discarded in landfills, with the rest utilized for recycling (26%) and energy recovery (36%) via combustion (www.plasticseurope.org), carrying a heavy environmental impact. Therefore, new solutions for plastic degradation are urgently needed. We report the fast bio-degradation of PE by larvae of the wax moth Galleria mellonella, producing ethylene glycol.F.B. is a Ramon y Cajal Fellow at the IBBTEC, in Santander, Spain. We thank Dr. Simone Ruggeri and Dr. Jenny Zhang for technical help. This work was funded by the Leverhulme foundation. P.B. and F.B. are co-founders of the company Baky.ltd. The authors declare no competing interest