Promotion of embryonic cortico-cerebral neuronogenesis by miR-124

Background: Glutamatergic neurons of the murine cerebral cortex are generated within periventricular proliferative layers of the embryonic pallium, directly from apical precursors or indirectly via their basal progenies. Cortical neuronogenesis is the result of different morphogenetic subroutines, including precursor proliferation and death, changes in histogenetic potencies, and post-mitotic neuronal differentiation. Control of these processes is extremely complex, involving numerous polypeptide-encoding genes. Moreover, many so-called 'non-coding genes' are also expressed in the developing cortex. Currently, their implication in corticogenesis is the subject of intensive functional studies. A subset of them encodes microRNAs (miRNAs), a class of small RNAs with complex biogenesis that regulate gene expression at multiple levels and modulate histogenetic progression and are implicated in refinement of positional information. Among the cortical miRNAs, miR-124 has been consistently shown to promote neuronogenesis progression in a variety of experimental contexts. Some aspects of its activity, however, are still controversial, and some have to be clarified. An in depth in vivo characterization of its function in the embryonic mammalian cortex is still missing. Results: By integrating locked nucleic acid (LNA)-oligo in situ hybridization, electroporation of stage-specific reporters and immunofluorescence, we reconstructed the cortico-cerebral miR-124 expression pattern during direct neuronogenesis from apical precursors and indirect neuronogenesis via basal progenitors. The miR-124 expression profile in the developing embryonic cortex includes an abrupt upregulation in apical precursors undergoing direct neuronogenesis as well as a two-step upregulation in basal progenitors during indirect neuronogenesis. Differential post-transcriptional processing seems to contribute to this pattern. Moreover, we investigated the role of miR-124 in embryonic corticogenesis by gain-of-function approaches, both in vitro, by lentivirus-based gene transfer, and in vivo, by in utero electroporation. Following overexpression of miR-124, both direct neuronogenesis and progression of neural precursors from the apical to the basal compartment were stimulated. Conclusion: We show that miR-124 expression is progressively up-regulated in the mouse embryonic neocortex during the apical to basal transition of neural precursor cells and upon their exit from cell cycle, and that miR-124 is involved in the fine regulation of these processes

Intraventricular Transplantation of Engineered Neuronal Precursors for In Vivo Neuroarchitecture Studies

Gene control of neuronal cytoarchitecture is currently the subject of intensive investigation. Described here is a simple method developed to study in vivo gene control of neocortical projection neuron morphology. This method is based on (1) in vitro lentiviral engineering of neuronal precursors as "test" and "control" cells, (2) their co-transplantation into wild-type brains, and (3) paired morphometric evaluation of their neuronal derivatives. Specifically, E12.5 pallial precursors from panneuronal, genetically labeled donors, are employed for this purpose. They are engineered to take advantage of selected promoters and tetON/OFF technology, and they are free-hand transplanted into neonatal lateral ventricles. Later, upon immunofluorescence profiling of recipient brains, silhouettes of transplanted neurons are fed into NeurphologyJ open source software, their morphometric parameters are extracted, and average length and branching index are calculated. Compared to other methods, this one offers three main advantages: it permits achieving of fine control of transgene expression at affordable costs, it only requires basic surgical skills, and it provides statistically reliable results upon analysis of a limited number of animals. Because of its design, however, it is not adequate to address non cell-autonomous control of neuroarchitecture. Moreover, it should be preferably used to investigate neurite morphology control after completion of neuronal migration. In its present formulation, this method is exquisitely tuned to investigate gene control of glutamatergic neocortical neuron architecture. Taking advantage of transgenic lines expressing EGFP in other specific neural cell types, it can be re-purposed to address gene control of their architecture

Association between Resistin Levels and All-Cause and Cardiovascular Mortality: A New Study and a Systematic Review and Meta-Analysis.

CONTEXT: Studies concerning the association between circulating resistin and mortality risk have reported, so far, conflicting results. OBJECTIVE: To investigate the association between resistin and both all-cause and cardiovascular (CV) mortality risk by 1) analyzing data from the Gargano Heart Study (GHS) prospective design (n=359 patients; 81 and 58 all-cause and CV deaths, respectively); 2) performing meta-analyses of all published studies addressing the above mentioned associations. DATA SOURCE AND STUDY SELECTION: MEDLINE and Web of Science search of studies reporting hazard ratios (HR) of circulating resistin for all-cause or CV mortality. DATA EXTRACTION: Performed independently by two investigators, using a standardized data extraction sheet. DATA SYNTHESIS: In GHS, adjusted HRs per one standard deviation (SD) increment in resistin concentration were 1.28 (95% CI: 1.07-1.54) and 1.32 (95% CI: 1.06-1.64) for all-cause and CV mortality, respectively. The meta-analyses included 7 studies (n=4016; 961 events) for all-cause mortality and 6 studies (n=4,187: 412 events) for CV mortality. Pooled HRs per one SD increment in resistin levels were 1.21 (95% CI: 1.03-1.42, Q-test p for heterogeneity<0.001) and 1.05 (95% CI: 1.01-1.10, Q-test p for heterogeneity=0.199) for all-cause and CV mortality, respectively. At meta-regression analyses, study mean age explained 9.9% of all-cause mortality studies heterogeneity. After adjusting for age, HR for all-cause mortality was 1.24 (95% CI: 1.06-1.45). CONCLUSIONS: Our results provide evidence for an association between circulating resistin and mortality risk among high-risk patients as are those with diabetes and coronary artery disease

Multidimensional Functional Profiling of Human Neuropathogenic FOXG1 Alleles in Primary Cultures of Murine Pallial Precursors

FOXG1 is an ancient transcription factor gene mastering telencephalic development. A number of distinct structural FOXG1 mutations lead to the “FOXG1 syndrome”, a complex and heterogeneous neuropathological entity, for which no cure is presently available. Reconstruction of primary neurodevelopmental/physiological anomalies evoked by these mutations is an obvious pre-requisite for future, precision therapy of such syndrome. Here, as a proof-of-principle, we functionally scored three FOXG1 neuropathogenic alleles, FOXG1G224S, FOXG1W308X, and FOXG1N232S, against their healthy counterpart. Specifically, we delivered transgenes encoding for them to dedicated preparations of murine pallial precursors and quantified their impact on selected neurodevelopmental and physiological processes mastered by Foxg1: pallial stem cell fate choice, proliferation of neural com-mitted progenitors, neuronal architecture, neuronal activity, and their molecular correlates. Briefly, we found that FOXG1G224S and FOXG1W308X generally performed as a gain-and a loss-of-function-allele, respectively, while FOXG1N232S acted as a mild loss-of-function-allele or phenocopied FOXG1WT . These results provide valuable hints about processes misregulated in patients heterozygous for these mutations, to be re-addressed more stringently in patient iPSC-derivative neuro-organoids. Moreover, they suggest that murine pallial cultures may be employed for fast multidimensional profiling of novel, human neuropathogenic FOXG1 alleles, namely a step propedeutic to timely delivery of therapeutic precision treatments

FISH testing of HER2 IHC 1+ early breast cancer with unfavorable prognostic factors

FISH testing of HER2 IHC 1+ early breast cancer with unfavorable prognostic factors Background HER2-positive tumors are associated with a poor prognosis and a shortened disease-free and overall survival as well as with other unfavorable prognostic tumor characteristics (high histological grade, high proliferative index, negative or low estrogen receptor expression, etc.). HER2-positive tumors are also responsive to treatment with trastuzumab in reducing the risk of recurrence and improving survival. The aim of this study is to assess the incidence of HER2 gene amplification in selected tumors with adverse prognostic features which scored 1+ by immunohistochemistry (IHC). Methods 75 women with infiltrating ductal carcinoma (IDC) and infiltrating lobular carcinoma (ILC) scoring 1+ by IHC were included. Forty-eight invasive breast carcinoma samples were selected according to unfavorable prognostic tumor characteristics and tested by FISH. HER2 amplification was evaluated using Vysis HER2/Cep17 probe (Path Vysion HER2 DNA Probe Kit®, Abbott Molecular, IL); ratio–based amplification was considered present when the HER2/Cep17 ratio was 2 or more and copy number-based amplification was considered present when the mean HER2 copy number was more than 6, in agreement with the ASCO/CAP/SIAPEC guidelines. Results In 2013, 331 patients with invasive breast tumors were tested by IHC; 75 cases (23%) were scored 1+ of which 62 cases (19%) of IDC and 13 cases (4%) of ILC. Forty-eight invasive breast carcinoma samples (64%) were selected according to one or more unfavorable prognostic tumor characteristics; 22 out of 48 tumors (46%) showed high histological grade (G3); 27 cases (56%) had high proliferative index (Ki-67≥30%); 32 tumor samples (67%) were node-positive; and 29 cases (60%) showed vascular invasion. FISH was performed on 31 of the 1+ patients with adverse tumor characteristics and 7 IDC out of 48 (14.6%) showed HER2 amplification. Conclusions Our preliminary retrospective data suggest that 7 patients out of 48 (14.6%) scoring 1+ by IHC show HER2 amplification, in agreement with the most recently published literature data. In order to not deny the benefit deriving from trastuzumab administration, in breast cancer patients showing IHC 1+, it is advisable to test HER2 gene amplification by FISH. Bibliografia Goldhirsch A, Gelber RD, Piccart-Gebhart MJ, de Azambuja E, Procter M, Suter TM, Jackisch C, Cameron D, Weber HA, Heinzmann D, Dal Lago L, McFadden E, Dowsett M, Untch M, Gianni L, Bell R, Köhne CH, Vindevoghel A, Andersson M, Brunt AM, Otero-Reyes D, Song S, Smith I, Leyland-Jones B, Baselga J; Herceptin Adjuvant (HERA) Trial Study Team. 2 years versus 1 year of adjuvant trastuzumab for HER2-positive breast cancer (HERA): an open-label, randomised controlled trial. Lancet. 2013 Sep 21;382(9897):1021-8. Iorfida M, Dellapasqua S, Bagnardi V, Cardillo A, Rotmensz N, Mastropasqua MG, Bottiglieri L, Goldhirsch A, Viale G, Colleoni M. HER2-negative (1+) breast cancer with unfavorable prognostic features: to FISH or not to FISH? Ann Oncol. 2012 May;23(5):1371-2. Romond EH, Perez EA, Bryant J, Suman VJ, Geyer CE Jr, Davidson NE, Tan-Chiu E, Martino S, Paik S, Kaufman PA, Swain SM, Pisansky TM, Fehrenbacher L, Kutteh LA, Vogel VG, Visscher DW, Yothers G, Jenkins RB, Brown AM, Dakhil SR, Mamounas EP, Lingle WL, Klein PM, Ingle JN, Wolmark N. Trastuzumab plus adjuvant chemotherapy for operable HER2-positive breast cancer. N Engl J Med. 2005 Oct 20;353(16):1673-84

Plasma cytokines, glomerular filtration rate and adipose tissue cytokines gene expression in chronic kidney disease (CKD) patients

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Coexistence of an imbalance of cytokines, chemokines and growth factors serum levels and symptoms of fatigue and pain in long-term breast cancer survivors.

Background: Fatigue, pain and depression are common problems among long-term cancer survivors (BCS) which in some patients may persist for many years after healing and the completion of treatment. Several studies have reported that increased serum levels of chemokines and growth factors are particularly significantly correlated with the coexistence of these disorders in cancer survivors. The aim of this study was to assess whether the altered imbalance of pro-inflammatory cytokines, growth factors and chemokine serum levels are associated to presence of fatigue and pain in long-term breast cancer survivors . Methods: Ninety-three BCS were enrolled in this study and blood samples taken from each. Serum levels of 25 analytes including cytokines, growth factors and chemokines were tested by enzyme immunoassay using the flexible Bio-Plex System. Participants also completed a questionnaire measuring demographic, clinical and behavioral variables. Results: Non-parametric discriminant analysis showed that fatigued BCS had significantly higher serum levels of FGF and lower IL-4 and IL-8 compared to the non-fatigued group, while BCS with pain had an increase in eotaxin serum levels and lower IL-4 and Il-7 compared to the group without pain. Univariate analysis showed a statistically significant difference in both mental and physical qol, with levels lower in the subgroup who presented pain than in those without: p = 0.0003 and p < 0.0001 respectively. A lower value of Rantes (p = 0.0131) in breast cancer survivors with pain compared to the group without pain, and a higher median value of TNF-α (p = 0.054) in the pain group than in those without pain was observed. The level of depression was higher than the score of 50 on the Zung scale in fatigued survivors compared to non-fatigued survivors (p = 0.0006). Conclusions: Our results suggest that an altered balance of chemokines, cytokines and growth factors serum levels may be associated to presence of symptoms such as fatigue and pain in breast cancer survivors at an average of 5 years after diagnosis