Cristina Marchini scite author profile

factors and/or extracellular signalling molecules different from those controlling the astrocyte properties in the fully developed brain. The expression of voltage-dependent calcium (Ca 2+) currents and inward-rectifying potassium (K +) currents can be triggered by the co-cultivation of astrocytes with neurons [4,6]. Ca 2÷ currents were also recorded in pure astrocyte cultures after a short time elevation of the intracellular content of cAMP [7,8]. Long-term treatment with dibutyryl-cyclic-AMP (dBcAMP), a permeable analog of cAMP, of astrocyte cultures has been reported to induce morphological and biochemical changes which have also been taken as an indicator for astrocyte differentiation [9 16]. However, little is known whether in astrocytes this goes along with a parallel modification of the electric membrane properties [17].We investigated this issue in patch-clamp experiments performed on rat cultured cortical astrocytes which had been incubated for 1 3 weeks with 250HM dBcAMP. The results indicate that the prolonged strengthening of the cAMP signalling causes, in conjunction with morphological/biochemical signs of astrocyte differentiation, the new expression of kinetically and pharmacologically distinct inwardly rectifying K + and CI-conductances which may be implicated in the astrocyte function of extracellular K + buffering.

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The intracellular trafficking mechanism of Lipofectamine-based transfection reagents and its implication for gene delivery

Cardarelli

Digiacomo

Marchini

et al. 2016

Sci Rep

190

127

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Lipofectamine reagents are widely accepted as “gold-standard” for the safe delivery of exogenous DNA or RNA into cells. Despite this, a satisfactory mechanism-based explanation of their superior efficacy has remained mostly elusive thus far. Here we apply a straightforward combination of live cell imaging, single-particle tracking microscopy, and quantitative transfection-efficiency assays on live cells to unveil the intracellular trafficking mechanism of Lipofectamine/DNA complexes. We find that Lipofectamine, contrary to alternative formulations, is able to efficiently avoid active intracellular transport along microtubules, and the subsequent entrapment and degradation of the payload within acidic/digestive lysosomal compartments. This result is achieved by random Brownian motion of Lipofectamine-containing vesicles within the cytoplasm. We demonstrate here that Brownian diffusion is an efficient route for Lipofectamine/DNA complexes to avoid metabolic degradation, thus leading to optimal transfection. By contrast, active transport along microtubules results in DNA degradation and subsequent poor transfection. Intracellular trafficking, endosomal escape and lysosomal degradation appear therefore as highly interdependent phenomena, in such a way that they should be viewed as a single barrier on the route for efficient transfection. As a matter of fact, they should be evaluated in their entirety for the development of optimized non-viral gene delivery vectors.

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The Human Splice Variant Δ16HER2 Induces Rapid Tumor Onset in a Reporter Transgenic Mouse

et al. 2011

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Several transgenic mice models solidly support the hypothesis that HER2 (ERBB2) overexpression or mutation promotes tumorigenesis. Recently, a HER2 splice variant lacking exon-16 (Δ16HER2) has been detected in human breast carcinomas. This alternative protein, a normal byproduct of HER2, has an increased transforming potency compared to wild-type (wt) HER2 receptors. To examine the ability of Δ16HER2 to transform mammary epithelium in vivo and to monitor Δ16HER2-driven tumorigenesis in live mice, we generated and characterized a mouse line that transgenically expresses both human Δ16HER2 and firefly luciferase under the transcriptional control of the MMTV promoter. All the transgenic females developed multifocal mammary tumors with a rapid onset and an average latency of 15.11 weeks. Immunohistochemical analysis revealed the concurrent expression of luciferase and the human Δ16HER2 oncogene only in the mammary gland and in strict correlation with tumor development. Transgenic Δ16HER2 expressed on the tumor cell plasma membrane from spontaneous mammary adenocarcinomas formed constitutively active homodimers able to activate the oncogenic signal transduction pathway mediated through Src kinase. These new transgenic animals demonstrate the ability of the human Δ16HER2 isoform to transform “per se” mammary epithelium in vivo. The high tumor incidence as well as the short latency strongly suggests that the Δ16HER2 splice variant represents the transforming form of the HER2 oncoprotein.

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Transfection efficiency boost of cholesterol-containing lipoplexes

Pozzi

Marchini

Cardarelli

et al. 2012

Biochimica et Biophysica Acta (BBA) - Biomembranes

118

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Most lipid formulations require cholesterol for successful transfection, but the precise reason remains to be more clearly understood. Here, we have studied the effect of cholesterol on the transfection efficiency (TE) of lipoplexes in vitro. Addition of cholesterol to highly effective DC-Chol-DOPE/DNA lipoplexes increases TE, with 40 mol% cholesterol yielding about 10-fold improvement. The transfection mechanisms of cholesterol-containing lipoplexes have been investigated by combining dynamic light scattering, synchrotron small angle X-ray scattering, laser scanning confocal microscopy and transfection efficiency measurements. Our results revealed that cholesterol-containing lipoplexes enter the cells partially by membrane fusion and this mechanism accounts for efficient endosomal escape. We also found evidence that formulations with high cholesterol content are not specifically targeted to metabolic degradation. These studies will contribute to rationally design novel delivery systems with superior transfection efficiency.

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Structural Stability against Disintegration by Anionic Lipids Rationalizes the Efficiency of Cationic Liposome/DNA Complexes

et al. 2007

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Reported here is the correlation between the transfection efficiency of cationic liposome/DNA complexes (lipoplexes) and the structural evolution that they undergo when interacting with anionic membrane lipids. Multicomponent lipoplexes, incorporating from three to six lipid species simultaneously, presented a much higher transfection efficiency than binary lipoplexes, which are more commonly used for gene-delivery purposes. The discovery that a high transfection efficiency can be achieved by employing multicomponent complexes at a lower-than-ever-before membrane charge density of lipoplexes was of primary significance. Synchrotron small-angle X-ray diffraction (SAXD) experiments showed that anionic liposomes made of dioleoylphosphatidylglycerol (DOPG) disintegrated the lamellar phase of lipoplexes. DNA unbinding was measured by electrophoresis on agarose gels. Most importantly, structural changes induced by anionic lipids strictly depended on the lipid composition of lipoplexes. We found evidence of the existence of three different regimes of stability related to the interaction between complexes and anionic membranes. Both unstable (with low membrane charge density, sigmaM) and highly stable lipoplexes (with high sigmaM) exhibited low transfection efficiency whereas highly efficient multicomponent lipoplexes exhibited an "optimal stability". This intermediate regime reflects a compromise between two opposing constraints: protection of DNA in the cytosol and endosomal escape. Here we advance the concept that structural stability, upon interaction with cellular anionic lipids, is a key factor governing the transfection efficiency of lipoplexes. Possible molecular mechanisms underlying experimental observations are also discussed.

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