Modification of Amorphous Mesoporous Zirconia Nanoparticles with Bisphosphonic Acids: A Straightforward Approach for Tailoring the Surface Properties of the Nanoparticles

The use of readily prepared bisphosphonic acids obtained in few steps through a thio-Michael addition of commercially available thiols on tetraethyl vinylidenebisphosphonate enables the straightforward surface modification of amorphous mesoporous zirconia nanoparticles. Simple stirring of the zirconia nanoparticles in a buffered aqueous solution of the proper bisphosphonic acid leads to the surface functionalization of the nanoparticles with different kinds of functional groups, charge and hydrophobic properties. Formation of both chemisorbed and physisorbed layers of the bisphosphonic acid take place, observing after extensive washing a grafting density of 1.1 molecules/nm2 with negligible release in neutral or acidic pH conditions, demonstrating stronger loading compared to monophosphonate derivatives. The modified nanoparticles were characterized by IR, XPS, ζ-potential analysis to investigate the loading of the bisphosphonic acid, FE-SEM to investigate the size and morphologies of the nanoparticles and 31P and 1H MAS NMR to investigate the coordination motif of the phosphonate units on the surface. All these analytical techniques demonstrated the strong affinity of the bisphosphonic moiety for the Zr(IV) metal centers. The functionalization with bisphosphonic acids represents a straightforward covalent approach for tailoring the superficial properties of zirconia nanoparticles, much straightforward compared the classic use of trisalkoxysilane or trichlorosilane reagents typically employed for the functionalization of silica and metal oxide nanoparticles. Extension of the use of bisphosphonates to other metal oxide nanoparticles is advisable

In vitro undetectable PT and Fibrinogen (and in vivo?)

A 81 aged woman came to E.R. of Trieste University Hospital with a traumatic head injury. Blood cells count, liver enzymes and other parameters were normal, but with a photometric clot detection method PT and PT-derived Fibrinogen were undetectable, Fibrinogen-Clauss gave different results (157 to 357 mg/dL) and aPTT-Ratio was normal (0.96). When the instrument detection performance was improved, PT was normal and PT-derived Fibrinogen detectable, but Fibrinogen-Clauss was still very unsteady (352/294/558 mg/dL). When a mixing test was performed with normal pool plasma, PT was corrected, PT-derived Fibrinogen was very low (80 mg/dL) and Fibrinogen-Clauss resulted 360 mg/dL. Fibrinogen-Antigen was 368 mg/dL by a nephelometric immunoassay. In another Lab with a different optical analyzer, PT and aPTT yielded the same results, Fibrinogen-Clauss was 557 mg/dL with 35 IU/ml Thrombin reagent (and a very steep clot formation curve), but 113 mg/dL with 15 IU/ml Thrombin reagent (and a normal curve). With an electromechanical clot detection method, PT-INR and aPTT-Ratio were normal (0.88 and 0.96 respectively), Fibrinogen-Clauss was normal (400 mg/dL) but unsteady. However in a few days our patient healed up perfectly; she declared that her sister had the same performance when she was referred to another Hospital for a check-up, nonetheless they never had any severe bleeding in their life. Samples from our patient\u2019s son and daughter were taken and resulted completely normal for coagulation tests. We hypothetized: 1) a too fast Thrombin formation and/or Fibrinogen consumption, as shown by steep coagulation curves without a stable plateau; 2) an excessive thrombin formation, (in preliminary studies, however, G20210A mutation was absent and F1+2 were normal); 3) a dysfibrinogenemia, (to be studied). Further studies for Endogenous Thrombin Potential about thrombin ipothesis and for genetical pattern about fibrinogen molecule are needed to clarify this case

Presenilin-2 dampens intracellular Ca2+ stores by increasing Ca2+ leakage and reducing Ca2+ uptake.

We have previously shown that familial Alzheimer's disease mutants of presenilin-2 (PS2) and, to a lesser extent, of presenilin-1 (PS1) lower the Ca(2+) concentration of intracellular stores. We here examined the mechanism by which wild-type and mutant PS2 affect store Ca(2+) handling. By using HeLa, SH-SY5Y and MEFs as model cells, and recombinant aequorins as Ca(2+) probes, we show evidence that transient expression of either wild-type or mutant PS2 increases the passive Ca(2+) leakage: both ryanodine- and IP(3)-receptors contribute to Ca(2+) exit out of the ER, whereas the ribosome translocon complex is not involved. In SH-SY5Y cells and MEFs, wild-type and mutant PS2 potently reduce the uptake of Ca(2+) inside the stores, an effect that can be counteracted by over-expression of SERCA-2B. On this line, in wild-type MEFs, lowering the endogenous level of PS2 by RNA interference, increases the Ca(2+)-loading capability of intracellular stores. Furthermore, we show that in PS double knockout MEFs, reduction of Ca(2+) stores is mimicked by the expression of PS2-D366A, a loss-of-function mutant, uncleaved because also devoid of presenilinase activity but not by co-expression of the two catalytic active fragments of PS2. In summary, both physiological and increased levels of wild-type and mutant PS2 reduce the Ca(2+) uptake by intracellular stores. To exert this newly described function, PS2 needs to be in its full-length form, even if it can subsequently be cleaved

Intravenous immunoglobulin in immune neutropenia.

6nonenoneVENTURA A.; FLOREAN P; PASCONE R; PERINI R; POCECCO M; LEPORE L.Ventura, Alessandro; Florean, P; Pascone, R; Perini, R; Pocecco, M; Lepore, L

High content analysis of gamma-secretase activity reveals variable dominance of presenilin mutations linked to familial Alzheimer's disease

gamma-Secretase mediates the intramembranous proteolysis of amyloid precursor protein (APP), Notch and other cellular substrates and is considered a prime pharmacological target in the development of therapeutics for Alzheimer's disease (AD). We describe here an efficient, new, simple, sensitive and rapid assay to quantify gamma-secretase activity in living cells by flow cytometry using two membrane-bound fluorescent probes, APP-GFP or C99-GFP, as substrates for gamma-secretase. The principle of the assay is based on the fact that the soluble intracellular domain of GFP-tagged APP (AICD-GFP) is released from the membrane into the cytosol following gamma-secretase cleavage. Using this feature, enzymatic activity of gamma-secretase could be deduced from the extent of the membrane retention of the probe observed after plasma membrane permeabilization and washout of the cleaved fraction. By applying two well-known gamma-secretase inhibitors (DAPT and L-685,458), we validated our assay showing that the positional GFP-based probes for gamma-secretase activity behave properly when expressed in different cell lines, providing the basis for the further development of a high-throughput and high content screening for AD targeted drug discovery. Moreover, by co-expression of different familial AD-linked mutated forms of presenilin--the key component of the gamma-secretase complex--in cells devoid of any endogenous gamma-secretase, our method allowed us to evaluate in situ the contribution of different presenilin variants to the modulation of the enzyme

Control of retinal isomerization in bacteriorhodopsin in the high-intensity regime

A learning algorithm was used to manipulate optical pulse shapes and optimize retinal isomerization in bacteriorhodopsin, for excitation levels up to 1.8 × 1016 photons per square centimeter. Below 1/3 the maximum excitation level, the yield was not sensitive to pulse shape. Above this level the learning algorithm found that a Fourier-transform-limited (TL) pulse maximized the 13-cis population. For this optimal pulse the yield increases linearly with intensity well beyond the saturation of the first excited state. To understand these results we performed systematic searches varying the chirp and energy of the pump pulses while monitoring the isomerization yield. The results are interpreted including the influence of 1-photon and multiphoton transitions. The population dynamics in each intermediate conformation and the final branching ratio between the all-trans and 13-cis isomers are modified by changes in the pulse energy and duration

Familial Alzheimer\ue2\u20ac\u2122s Disease presenilin mutants reduce calcium levels of intracellular stores. A critical revaluation of the \ue2\u20ac\u153calcium overload\ue2\u20ac\u9d hypothesis

Background: Presenilin-1 and -2 (PS1 and PS2) mutations, the major cause of Familial Alzheimer\u2019s Disease (FAD), have been causally implicated in the pathogenesis of neuronal cell death through a perturbation of cellular Ca2+ homeostasis. We have recently shown that, at variance with previous suggestions obtained in cells expressing other FAD-linked PS mutations, PS2-M239I and PS2-T122R cause a reduction and not an increase in cytosolic Ca2+ rises induced by Ca2+ release from stores (1,2). Objective(s): In this study we aim at investigating whether other FAD-linked PS mutations induce a similar dysregulation of Ca2+ homeostasis. Methods: Different cell models have been used: human fibroblasts from controls and FAD patients, cell lines (SH-SY5Y, HeLa, HEK293, MEFs) and rat primary neurons expressing a number of PS mutations, e.g. P117L, M146L, L286V, and A246E in PS1 and M239I, T122R, and N141I in PS2. The effects of FAD-linked PS mutations on cytosolic Ca2+ changes have been monitored either by using fura-2 or recombinant cytosolic aequorin as the probe. Results: Independently of the cell model or the employed probe, the cytosolic Ca2+ increases, caused by agonist stimulation or full store depletion by drug treatment, were reduced or unchanged in cells expressing the PS mutations. Using aequorins, targeted to the endoplasmic reticulum or the Golgi apparatus, we here show that FAD-linked PS mutants lower the Ca2+ content of intracellular stores. The phenomenon was most prominent in cells expressing PS2 mutants, and was observed also in cells expressing the non-pathogenic, \u201closs-of-function\u201d PS2-D366A mutation. Conclusions: Taken as a whole, our findings, while confirming the capability of presenilins to modify Ca2+ homeostasis, suggest a re-evaluation of the \u201cCa2+ hypothesis\u201d in AD and a new working hypothesis is presented. 1. Zatti G, Ghidoni R, Barbiero L, Binetti G, Pozzan T, Fasolato C, Pizzo P. (2004). Neurobiology of disease, 15, 269-278. 2. Giacomello M, Barbiero L, Zatti G, Squitti R, Binetti G, Pozzan T, Fasolato C, Ghidoni R, Pizzo P. (2005). Neurobiology of disease, 18, 638-648