Identification of transfected cell types following non-viral gene transfer to the murine lung

BACKGROUND: Identification of the cell types transfected following gene transfer is an important factor in the selection of appropriate gene transfer agents (GTAs). Due to the relatively low gene expression mediated by non-viral GTAs, current methodologies for the detection and identification of transfected cells in the lung have proven insensitive and unreliable. We have investigated the use of the green fluorescent protein (GFP) to identify transfected cells in a mouse lung model. METHODS: Direct visualisation of GFP fluorescence in frozen histological sections was used in conjunction with a panel of cell type specific antibodies to investigate the distribution and level of gene expression in mouse lungs following instillation of non-viral GTAs. RESULTS: Despite considerable tissue autofluorescence, dose-dependent expression of GFP was detected following instillation of as little as 25 microg naked plasmid DNA (pDNA). Naked pDNA and pDNA complexed with polyethylenimine appeared to transfect mainly ciliated cells and Clara cells of the conducting airway, whereas expression mediated by pDNA complexed with the cationic lipid GL67 was found predominantly in type I pneumocytes. CONCLUSIONS: Direct visualisation of GFP expression was used to detect transfected cell types in the mouse lung. In contrast with observations made using beta-galactosidase as a reporter, gene expression from several non-viral GTAs was readily demonstrated and no false GFP-positive cells were ever detected in untreated lung tissues. Lung delivery of different GTAs resulted in GFP expression in different cell types, confirming the importance of identification of transfected cells when screening and selecting GTAs for disease targets.     

Lactosylated polyethylenimine for gene transfer into airway epithelial cells: role of the sugar moiety in cell delivery and intracellular trafficking of the complexes

BACKGROUND: As we have previously shown that lactosylated polyethylenimine (PEI) is the most efficient glycosylated PEI for gene transfer into human airway epithelial cells in primary culture, we have studied here the role of the lactose residue in the enhancement of gene transfer efficiency observed with lactosylated PEI as compared with unsubstituted PEI in immortalized (Sigma CFTE29o- cells) and primary human airway epithelial cells. METHODS AND RESULTS: After three transfections of 1 h performed daily, 60% of Sigma CFTE29o- cells were transfected with lactosylated PEI, whereas 25% of cells were transfected with unsubstituted PEI (p < 0.05). Cell viability was 1.8-fold greater with lactosylated PEI as compared with unsubstituted PEI (p < 0.05). As assessed by flow cytometry, the cellular uptake of lactosylated complexes was greater than that of complexes made with unsubstituted PEI (p < 0.05) and involved mostly a receptor-mediated endocytosis. The study of the intracellular trafficking in airway epithelial cells of complexes showed an endosomal and lysosomal accumulation of lactosylated complexes. In the presence of a proton pump inhibitor, the level of lactosylated and unsubstituted PEI-mediated gene expression was reduced more than 20-fold, whereas the cell viability increased to almost 100%. For both complexes, a nuclear localization was observed for less than 5% of intracellular complexes. CONCLUSIONS: Our results show that the greater gene transfer efficiency observed for lactosylated complexes may be attributed to a higher amount of lactosylated complexes incorporated by airway epithelial cells and a lower cytotoxicity that might be related to reduced endosomolytic properties. However, the lactose residues substituting the PEI did not promote the entry of the plasmid into the nucleus.     

Enhanced gene transfer and cell death following p53 gene transfer using photochemical internalisation of glucosylated PEI-DNA complexes

BACKGROUND: p53 is frequently mutated in many cancers including human head and neck squamous cell carcinoma and pancreatic cancer. In tumor models, wild-type (wt) p53 gene transfer induces apoptosis and tumor regression in vivo, justifying the extensive clinical investigation of p53 gene therapy. METHODS: p53 nonviral-mediated gene transfer was achieved using glucosylated polyethylenimine (PEI) in conjunction with photochemical internalisation (PCI). Experimental conditions were optimised using the green fluorescent protein (GFP) as a reporter. p53 gene transfer was then evaluated using semi-quantitative RT-PCR in p53-deleted PANC3 and p53-mutated FaDu cell lines. Following gene transfer, induction of apoptosis was investigated using phosphatidylserine externalisation and nuclear fragmentation assays. Induction of long-term cell death was analysed using colony-forming assays. RESULTS: PCI was found to enhance GFP gene transfer after 48 h in both cell lines. Whether using glucosylated-PEI alone or associated with PCI, p53 gene transfer was achieved with subsequent recovery of p53 mRNA expression in PANC3 cells and a significant 4-fold increase in p53 mRNA expression in FaDu cells. PCI was found to further enhance p53 mRNA expression by 2.3-fold in PANC3 cells. Spontaneous induction of apoptosis following wt-p53 gene transfer was achieved in both cell lines. PCI was found to enhance apoptosis up to levels similar to those achieved with chemotherapy. As a consequence, long-term cell death was significantly enhanced after wt-p53 gene transfer when PCI was used in both cell lines, yielding up to 60% cell death. CONCLUSIONS: PCI increases glucosylated-PEI-mediated p53 gene transfer, apoptosis as well as cell death in mutant p53 human cancer cells.     

Phage phiC31 integrase-mediated genomic integration and long-term gene expression in the lung after nonviral gene delivery

BACKGROUND: Phage phiC31 integrase has emerged as a potent tool for achieving long-term gene expression in different tissues. The present study investigated the activity of phiC31 integrase in murine lungs. METHODS: Transfections in murine alveolar epithelial (MLE12) cells were performed with Lipofectamine 2000. For in vivo gene delivery, DNA was complexed with polyethylenimine (PEI) and PEI-DNA complexes were injected intravenously into mice. Expression of luciferase in mice was monitored by in vivo bioluminsecence imaging. Genomic integration and integration into a previously described 'hotspot' were confirmed by polymerase chain reaction (PCR). RESULTS: phiC31 integrase mediated intramolecular recombination between wild-type attB and attP sites in MLE12 cells. Long-term gene expression could be observed in MLE12 cells in the presence of integrase without any selection pressure. Long-term expression of luciferase after intravenous injection of PEI-DNA complexes could be observed only in the lungs of mice which were co-injected with the integrase-encoding plasmid. Increased amounts of integrase plasmid and administration of a second dose had no effect on the level of luciferase expression achieved with a single dose, which was three orders of magnitude lower than the values observed on 'day 1' post application. Genomic integration of the transgene in the mouse lungs was confirmed by PCR. Seven out of the fifteen treated mice showed integration at the mpsL1 site, a previously described 'hot spot' from liver. CONCLUSIONS: These results provide evidence for the activity of phiC31 integrase in lungs but also emphasize the need for optimization of the system to maintain long-term gene expression at high levels.     

Generation of a conditional null allele for Cftr in mice

The cystic fibrosis transmembrane conductance regulator (CFTR) gene encodes a cAMP-regulated chloride channel that is important in controlling the exchange of fluid and electrolytes across epithelial cells. Mutation of CFTR can lead to cystic fibrosis (CF), the most common lethal genetic disease in Caucasians. CF is a systemic illness with multiple organ systems affected including pulmonary, gastrointestinal, pancreatic, immune, endocrine, and reproductive systems. To understand the role of CFTR in the various tissues in which it is expressed, we generated a murine conditional null allele of Cftr (Cftr(fl10)) in which loxP sites were inserted around exon 10 of the Cftr gene. The Cftr(fl10) allele was validated by generating constitutive Cftr null (Cftr(Delta10)) mice using the protamine-cre system. The Cftr(Delta10/Delta10) mice displayed almost identical phenotypes to previously published CF mouse models, including poor growth, decreased survival, intestinal obstruction, and loss of Cftr function as assessed by electrophysiology measurements on gut and nasal epithelium. Mice containing the conditional null Cftr allele will be useful in future studies to understand the role of Cftr in specific tissues and developmental time points and lead to a better understanding of CF disease.     

Potocytosis and cellular exit of complexes as cellular pathways for gene delivery by polycations

BACKGROUND: Although polycations are among the most efficient nonviral vectors for gene transfer, the gene expression they allow is still too low for in vivo applications. To engineer more potent polycationic vectors, the factors governing the intracellular trafficking of a plasmid complexed with current polycations need to be identified. METHODS AND RESULTS: The trafficking of plasmid DNA complexed to glycosylated polylysines or polyethylenimine (PEI) derivatives was studied by electron microscopy of human airway epithelial cells. The cellular processing of complexes varied with their size and the polycation derivative used: large complexes (> 200 nm) made with all polycationic vectors studied were internalized by macropinocytosis. In contrast, intermediate (100-200 nm) ligand-coupled polylysine and PEI complexes primarily entered through clathrin-coated pits. Complexes were then found in endosomal vesicles, accumulated in lysosomes or vesicles near the nucleus and their nuclear entry was limited. For the population of small complexes (< or = 100 nm) obtained with PEI derivatives, they were internalized through caveolae and pursued a traffic pattern of potocytosis to the endoplasmic reticulum where their fate remains unclear. Finally, some complexes exited the cells either by regurgitation when PEI derivatives were used or through an exosome-like pathway for glycosylated-polylysine complexes. CONCLUSIONS: The different pathways of complex trafficking observed in relation with complex size imply the development and study of vectors forming complexes with definite size. Moreover, the complex exit we describe may contribute to the well-established short-term efficiency of gene transfer based on synthetic vectors. It favors the engineering of vectors allowing repeated treatment.     

Comparison of the properties of histidine ammonia-lyase in normal and histidinemic mutant mice

The histidinemic (his/his) mutant mouse shows greatly reduced skin and liver histidine:ammonia-lyase (HAL; EC 4.3.1.3) activity compared with normal mice. Liver HAL activity in the mutant is heat and salt labile and is inhibited at high substrate concentrations. Two HAL components have been identified in the normal mouse liver, a minor component with properties similar to those of HAL of the mutant mouse and a major component which is heat and salt stable and insensitive to substrate inhibition. Immunotitration with anti-HAL antibody shows that the livers of mutant mice contain no detectable antigenically cross-reacting HAL protein. It is concluded, therefore, that the his allele is a null allele at a structural or regulatory locus for the major HAL enzyme and maps close to the HAL-regulatory locus Hsd and that the low residual HAL activity in the mutant is due to another enzyme.This work was supported by an MRC Project Grant to H.K. and USPHS Grant GH21002 to S.M.A.     

Rapid induction of IGF-IR signaling in normal and tumor tissue following intravenous injection of IGF-I in mice.

The detection of IGF-IR signaling in animal models has important implications for determining the role of this receptor in normal physiology and tumor growth. While many reports have correlated changes in plasma IGF-I levels in vivo with biological responses, few have shown that altered IGF-I levels can directly affect signaling within normal or tumor tissue. Here, we present new data that shows how the intravenous (IV) injection of IGF-I can be used to directly examine IGF signaling at the tissue level. Tail-vein IV injection of IGF-I into mice resulted in a rapid and dose-dependent activation of the IGF-I receptor and downstream phosphorylation of Akt and ERK1/2 in liver, kidney, and mammary gland. Similarly, IV IGF-I rapidly stimulated signaling in HT-29 colorectal and in MCF-7 breast cancer xenografts. This study shows how IV IGF injection can be used to examine the signaling mechanisms used by IGF-IR, in both normal mammary tissue and during tumor growth, and may provide a model for the characterization of IGF inhibitors.     

EMS-induced mutant frequency and spectrum in bone marrow of D6-2 transgenic mice

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Increased frequency of CFTR gene mutations identified in Indian infertile men with non-CBAVD obstructive azoospermia and spermatogenic failure

High incidence of mutations in the cystic fibrosis transmembrane conductance regulator (CFTR) gene is associated with congenital bilateral absence of the vas deferens (CBAVD) and is considered as the genital form of cystic fibrosis (CF). The CFTR gene may also be involved in the etiology of male infertility in cases other than CBAVD. The present study was conducted to identify the spectrum and frequency of CFTR gene mutations in infertile Indian males with non-CBAVD obstructive azoospermia (n = 60) and spermatogenic failure (n = 150). Conspicuously higher frequency of heterozygote F508del mutation was detected in infertile males with non-CBAVD obstructive azoospermia (11.6%) and spermatogenic failure (7.3%). Homozygous IVS(8)-5T allele frequency was also significantly higher in both groups in comparison to those in normal healthy individuals. Two mutations in exon 25 viz., R1358I and K1351R were identified as novel mutations in patients with non-CBAVD obstructive azoospermia. Mutation R1358I was predicted as probably damaging CFTR mutation. This is the first report from the Indian population, emphasizing increased frequency of CFTR gene mutations in male infertility other than CBAVD. Thus, it is suggested that screening of CFTR gene mutations may be required in infertile Indian males with other forms of infertility apart from CBAVD and willing for assisted reproduction technology.     

Five-in-One: Simultaneous isolation of multiple major liver cell types from livers of normal and NASH mice

NASH is a chronic liver disease that affects 3%–6% of individuals and requires urgent therapeutic developments. Isolating the key cell types in the liver is a necessary step towards understanding their function and roles in disease pathogenesis. However, traditional isolation methods through gradient centrifugation can only collect one or a few cell types simultaneously and pose technical difficulties when applied to NASH livers. Taking advantage of identified cell surface markers from liver single-cell RNAseq, here we established the combination of gradient centrifugation and antibody-based cell sorting techniques to isolate five key liver cell types (hepatocytes, endothelial cells, stellate cells, macrophages and other immune cells) from a single mouse liver. This method yielded high purity of each cell type from healthy and NASH livers. Our five-in-one protocol simultaneously isolates key liver cell types with high purity under normal and NASH conditions, enabling for systematic and accurate exploratory experiments such as RNA sequencing.     

Spectrum and distribution of CFTR gene mutations in asthma and chronic pancreatitis cases of North Indian population

Background

Cystic fibrosis transmembrane conductance regulator (CFTR) gene accounts for an autosomal recessive condition called cystic fibrosis (CF). In the Indian subcontinent, CF and its related diseases are under-diagnosed by the medical community due to poor knowledge of the disease and its confounding diagnosis, and also due to poor medical facilities available for these patients, thus causing an increased infant mortality rate with a low life expectancy in general. The aim of the study was to document the spectrum and distribution of CFTR mutations in controls, asthma and chronic pancreatitis cases of North India.

Methods

A total of 800 subjects including 400 controls, 250 asthma cases and150 chronic pancreatitis cases were analyzed for 6 mutations (F508del, G542X, G551D, R117H, W1282X, and S549N) and IVS8 Tn polymorphism.

Results

Out of 800 subjects, 18% [asthma — 24% (n = 250), CP — 29.33% (n = 150) cases and controls — 9.3% (n = 400)] were positive for heterozygous mutation, 0.8% of the (n = 250) asthmatic cases (n = 250) were homozygous for IVS8 T5 polymorphism while no subjects were found positive for W1282X mutation. T5 polymorphism was more common in asthmatic cases while F508del mutation in chronic pancreatitis cases. The carrier frequency of F508del, G542X, G551D, R117H, S549N and T5 was 0.015, 0.025, 0.02, 0.005, 0.005, and 0.022 respectively. The cumulative carrier frequency was 0.093.

Conclusion

CFTR mutations were underestimated in Indian population. The present study will serve in establishment of genetic screening and prenatal setup for Indian population.     

Extracellular and intracellular degradation of collagen by trophoblast giant cells in acute fasted mice examined by electron microscopy

The fine structure of trophoblast giant cells and their interaction with collagen at the antimesometrial region on the 9th day of pregnancy was examined in fed and acute fasted mice. Collagen fibrils and filamentous aggregates (disintegrating collagen fibrils) were observed in the extracellular space. Three types of intracellular vacuoles containing collagen fibrils were present: vacuole type A exhibited typical cross-banded collagen immersed in finely granular electron-translucent material; and vacuoles type B and C showed electron-opaque granular material containing, respectively, faint cross-banded collagen and narrow clear stripes often with faint periodicity. In fed animals vacuoles type B were absent and the others were less evident.Only fasted animals showed extracellular acid phosphatase activity on collagen fibrils, filamentous aggregates and confined regions of the extracellular space. Intracellular acid phosphatase activity was observed in vacuoles type B and in lysosomes.The results indicate that trophoblast giant cells are capable of breaking down extracellular collagen and also of internalizing collagen for intracellular degradation. It is likely that these events are part of the process of invasion of the uterine wall. However, in fasted mice, collagen breakdown is more pronounced, and it may therefore contribute to the provision of amino acids and other nutrients for the undernourished fetus.     

Human and mouse trigeminal ganglia cell atlas implicates multiple cell types in migraine

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