Human heart disease: lessons from human pluripotent stem cell-derived cardiomyocytes

Technical advances in generating and phenotyping cardiomyocytes from human pluripotent stem cells (hPSC-CMs) are now driving their wider acceptance as in vitro models to understand human heart disease and discover therapeutic targets that may lead to new compounds for clinical use. Current literature clearly shows that hPSC-CMs recapitulate many molecular, cellular, and functional aspects of human heart pathophysiology and their responses to cardioactive drugs. Here, we provide a comprehensive overview of hPSC-CMs models that have been described to date and highlight their most recent and remarkable contributions to research on cardiovascular diseases and disorders with cardiac traits. We conclude discussing immediate challenges, limitations, and emerging solutions.     

Human embryonic stem cell-derived neurons establish region-specific, long-range projections in the adult brain

While the availability of pluripotent stem cells has opened new prospects for generating neural donor cells for nervous system repair, their capability to integrate with adult brain tissue in a structurally relevant way is still largely unresolved. We addressed the potential of human embryonic stem cell-derived long-term self-renewing neuroepithelial stem cells (lt-NES cells) to establish axonal projections after transplantation into the adult rodent brain. Transgenic and species-specific markers were used to trace the innervation pattern established by transplants in the hippocampus and motor cortex. In vitro, lt-NES cells formed a complex axonal network within several weeks after the initiation of differentiation and expressed a composition of surface receptors known to be instrumental in axonal growth and pathfinding. In vivo, these donor cells adopted projection patterns closely mimicking endogenous projections in two different regions of the adult rodent brain. Hippocampal grafts placed in the dentate gyrus projected to both the ipsilateral and contralateral pyramidal cell layers, while axons of donor neurons placed in the motor cortex extended via the external and internal capsule into the cervical spinal cord and via the corpus callosum into the contralateral cortex. Interestingly, acquisition of these region-specific projection profiles was not correlated with the adoption of a regional phenotype. Upon reaching their destination, human axons established ultrastructural correlates of synaptic connections with host neurons. Together, these data indicate that neurons derived from human pluripotent stem cells are endowed with a remarkable potential to establish orthotopic long-range projections in the adult mammalian brain.     

Role of laminin-nidogen complexes in basement membrane formation during embryonic development

Laminin and nidogen (entactin) are major glycoprotein components of basement membranes. At least seven different isoforms of laminin have been identified. Laminin and nidogen form high affinity complexes in basement membranes by specific binding between the laminin γ1 chain and the G3 globule of nidogen. Additional interactions between nidogen and collagen IV, perlecan and other basement membrane components result in the formation of ternary complexes between these matrix components. Nidogen is highly susceptible to proteolytic cleavage, and binding to laminin protects nidogen from degradation. Nidogen is considered to have a crucial role as a link protein in the assembly of basement membranes. Basement membrane components are synthesized at high levels during tissue growth and development, and sites of morphogenesis correlate with localized remodelling of basement membranes. The formation of distinct basement membrane matrices in the developing embryo is influenced by the laminin isoforms produced and by whether laminin and nidogen are co-expressed and secreted as a complex or are produced by cooperation between two cell layers. The potential roles of laminin-nidogen complexes, cell-matrix interactions, and other intermolecular interactions within the matrix in basement membrane assembly and stability are discussed in this review.     

The growth of cartilaginous embryonic chick bones after freezing

Zusammenfassung Tibien von sechs Tage alten Hühnerembryonen überleben eine Abkühlung auf – 79°C. Im Gegensatz dazu werden die hypertrophischen Zellen der Diaphyse von Tibien siebentägiger Embryonen durch Gefrieren weitgehend zerstört, während der Rest der Rudimente überlebt.     

The importance of HLA-G expression in embryos,trophoblast cells,and embryonic stem cells

The nonclassical HLA-G molecule is a trophoblast-specific molecule present in almost every pregnancy. It differs from classical HLA class I molecules by the low degree of allelic variants and the high diversity of protein structures. HLA-G is reported to be a tolerogenic molecule that acts on cells of both innate and adaptive immunity. At the maternal–fetal interface HLA-G seems to be responsible largely for the reprogramming of local maternal immune response. This review will focus on the HLA-G gene expression profile in pregnancy, in preimplantation embryos, and in human embryonic stem cells with emphasis on the structural diversity of the HLA-G protein and its potential functional and diagnostic implications.     

Inhibition of ultraviolet-induced hydroxyproline formation in human dermal collagen

Zusammenfassung In Gegenwart des Chelatbildners Dipyridyl ist die unter der Einwirkung von UV-Bestrahlung eintretende Oxydation von Prolin zu Hydroxyprolin gehemmt, wie hier am Beispiel von neutralsalzlöslichem dermalem Kollagen des Menschen gezeigt werden konnte. Die unter den gleichen Bedingungen einsetzende Degradation der primären Kollagenketten wird jedoch durch die Gegenwart von Dipyridyl nicht gestört, so dass ein direkter Zusammenhang zwischen den beiden Effekten ausgeschlossen werden kann.     

The transformation of a tail into limb after xenoplastic transplantation

Riassunto Bottoni caudali di Triton e di Axolotl trapiantati sul campo dell'arto di Discoglossus (allo stadio di neurula) si differenziano in code, le quali talvolta, all'epoca della metamorfosi dell'ospite, si trasformano in arti. Viene discusso il meccanismo di tale trasformazione.     

The formation of androgens in human foetal liver in vitro

Zusammenfassung Nach Inkubation des homogenisierten Lebergewebes menschlicher, 7–20 Wochen alter, Foeten mit 3-Hydroxy-5-androsten-17-on wird die Bildung von Testosteron, 4-Androsten-3, 17-dion und 5-Androsten-3, 17-diol nachgewiesen.