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1.
Nature ; 579(7797): 123-129, 2020 03.
Article in English | MEDLINE | ID: mdl-32103176

ABSTRACT

A mosaic of cross-phylum chemical interactions occurs between all metazoans and their microbiomes. A number of molecular families that are known to be produced by the microbiome have a marked effect on the balance between health and disease1-9. Considering the diversity of the human microbiome (which numbers over 40,000Ā operational taxonomic units10), the effect of the microbiome on the chemistry of an entire animal remains underexplored. Here we use mass spectrometry informatics and data visualization approaches11-13 to provide an assessment of the effects of the microbiome on the chemistry of an entire mammal by comparing metabolomics data from germ-free and specific-pathogen-free mice. We found that the microbiota affects the chemistry of all organs. This included the amino acid conjugations of host bile acids that were used to produceĀ phenylalanocholic acid, tyrosocholic acid and leucocholic acid, which have not previously been characterized despite extensive research on bile-acid chemistry14. These bile-acid conjugates were also found in humans, and were enriched in patients with inflammatory bowel disease or cystic fibrosis. These compounds agonized the farnesoidĀ X receptor in vitro, and mice gavaged with the compounds showed reduced expression of bile-acid synthesis genes in vivo. Further studies are required to confirm whether these compounds have a physiological role in the host, and whether they contribute to gut diseases that are associated with microbiome dysbiosis.


Subject(s)
Bile Acids and Salts/biosynthesis , Bile Acids and Salts/chemistry , Metabolomics , Microbiota/physiology , Animals , Bile Acids and Salts/metabolism , Cholic Acid/biosynthesis , Cholic Acid/chemistry , Cholic Acid/metabolism , Cystic Fibrosis/genetics , Cystic Fibrosis/metabolism , Cystic Fibrosis/microbiology , Germ-Free Life , Humans , Inflammatory Bowel Diseases/genetics , Inflammatory Bowel Diseases/metabolism , Inflammatory Bowel Diseases/microbiology , Mice , Receptors, Cytoplasmic and Nuclear/genetics , Receptors, Cytoplasmic and Nuclear/metabolism
2.
Eur Respir J ; 58(5)2021 11.
Article in English | MEDLINE | ID: mdl-33958427

ABSTRACT

BACKGROUND: Acute pulmonary exacerbations (AE) are episodes of clinical worsening in cystic fibrosis (CF), often precipitated by infection. Timely detection is critical to minimise morbidity and lung function declines associated with acute inflammation during AE. Based on our previous observations that airway protein short palate lung nasal epithelium clone 1 (SPLUNC1) is regulated by inflammatory signals, we investigated the use of SPLUNC1 fluctuations to diagnose and predict AE in CF. METHODS: We enrolled CF participants from two independent cohorts to measure AE markers of inflammation in sputum and recorded clinical outcomes for a 1-year follow-up period. RESULTS: SPLUNC1 levels were high in healthy controls (n=9, 10.7Ć¢Ā€Ā…ĀµgĀ·mL-1), and significantly decreased in CF participants without AE (n=30, 5.7Ć¢Ā€Ā…ĀµgĀ·mL-1; p=0.016). SPLUNC1 levels were 71.9% lower during AE (n=14, 1.6Ć¢Ā€Ā…ĀµgĀ·mL-1; p=0.0034) regardless of age, sex, CF-causing mutation or microbiology findings. Cytokines interleukin-1Ɵ and tumour necrosis factor-α were also increased in AE, whereas lung function did not decrease consistently. Stable CF participants with lower SPLUNC1 levels were much more likely to have an AE at 60Ć¢Ā€Ā…days (hazard ratio (HR)Ā±se 11.49Ā±0.83; p=0.0033). Low-SPLUNC1 stable participants remained at higher AE risk even 1Ć¢Ā€Ā…year after sputum collection (HRĀ±se 3.21Ā±0.47; p=0.0125). SPLUNC1 was downregulated by inflammatory cytokines and proteases increased in sputum during AE. CONCLUSION: In acute CF care, low SPLUNC1 levels could support a decision to increase airway clearance or to initiate pharmacological interventions. In asymptomatic, stable patients, low SPLUNC1 levels could inform changes in clinical management to improve long-term disease control and clinical outcomes in CF.


Subject(s)
Cystic Fibrosis , Glycoproteins , Humans , Lung , Nasal Mucosa , Phosphoproteins
3.
Am J Respir Crit Care Med ; 202(10): 1419-1429, 2020 11 15.
Article in English | MEDLINE | ID: mdl-32603604

ABSTRACT

Rationale: Cystic fibrosis (CF) is a life-shortening, multisystem hereditary disease caused by abnormal chloride transport. CF lung disease is driven by innate immune dysfunction and exaggerated inflammatory responses that contribute to tissue injury. To define the transcriptional profile of this airway immune dysfunction, we performed the first single-cell transcriptome characterization of CF sputum.Objectives: To define the transcriptional profile of sputum cells and its implication in the pathogenesis of immune function and the development of CF lung disease.Methods: We performed single-cell RNA sequencing of sputum cells from nine subjects with CF and five healthy control subjects. We applied novel computational approaches to define expression-based cell function and maturity profiles, herein called transcriptional archetypes.Measurements and Main Results: The airway immune cell repertoire shifted from alveolar macrophages in healthy control subjects to a predominance of recruited monocytes and neutrophils in CF. Recruited lung mononuclear phagocytes were abundant in CF and were separated into the following three archetypes: activated monocytes, monocyte-derived macrophages, and heat shock-activated monocytes. Neutrophils were the most prevalent in CF, with a dominant immature proinflammatory archetype. Although CF monocytes exhibited proinflammatory features, both monocytes and neutrophils showed transcriptional evidence of abnormal phagocytic and cell-survival programs.Conclusions: Our findings offer an opportunity to understand subject-specific immune dysfunction and its contribution to divergent clinical courses in CF. As we progress toward personalized applications of therapeutic and genomic developments, we hope this inflammation-profiling approach will enable further discoveries that change the natural history of CF lung disease.


Subject(s)
Airway Resistance/genetics , Cystic Fibrosis/genetics , Cystic Fibrosis/physiopathology , Inflammation/genetics , Inflammation/physiopathology , Transcriptional Activation/genetics , Adult , Aged , Aged, 80 and over , Female , Humans , Male , Middle Aged , Single-Cell Analysis
4.
Curr Opin Pediatr ; 32(3): 384-388, 2020 06.
Article in English | MEDLINE | ID: mdl-32374578

ABSTRACT

PURPOSE OF REVIEW: Cystic fibrosis transmembrane conductance receptor (CFTR) modulators are a new class of drugs that treat the underlying cause of cystic fibrosis. To date, there are four approved medications, which are mutation-specific. Although the number of mutations that respond to these agents is expanding, effective CFTR modulators are not available to all cystic fibrosis patients. The purpose of this article is to review the approved CFTR modulators and discuss the mutations that can be treated with these agents, as well as, review the long-term benefits of modulator therapy. RECENT FINDINGS: More people with cystic fibrosis can be effectively treated with CFTR modulators. The new, highly effective triple therapy, elexacaftor/tezacaftor/ivacaftor is indicated for more than 90% of patients with cystic fibrosis and ivacaftor is now approved for children as young as 6 months of age with 1 of 30 CFTR mutations. Long-term use of modulator therapy is associated with fewer pulmonary exacerbations, maintenance of lung function, improved weight gain, and quality of life. SUMMARY: CFTR modulators are the first therapies developed to treat the underlying defect in cystic fibrosis. Their use is associated with preserved lung function and improved health in patients with cystic fibrosis.


Subject(s)
Aminophenols/therapeutic use , Benzodioxoles/therapeutic use , Cystic Fibrosis Transmembrane Conductance Regulator/therapeutic use , Cystic Fibrosis/drug therapy , Indoles/therapeutic use , Pyrazoles/therapeutic use , Pyridines/therapeutic use , Pyrrolidines/therapeutic use , Quality of Life/psychology , Quinolones/therapeutic use , Child , Cystic Fibrosis/psychology , Humans , Mutation , Treatment Outcome
5.
J Am Soc Nephrol ; 28(1): 242-249, 2017 Jan.
Article in English | MEDLINE | ID: mdl-27313231

ABSTRACT

Patients with cystic fibrosis have an increased incidence of hyperoxaluria and calcium oxalate nephrolithiasis. Net intestinal absorption of dietary oxalate results from passive paracellular oxalate absorption as modified by oxalate back secretion mediated by the SLC26A6 oxalate transporter. We used mice deficient in the cystic fibrosis transmembrane conductance regulator gene (Cftr) to test the hypothesis that SLC26A6-mediated oxalate secretion is defective in cystic fibrosis. We mounted isolated intestinal tissue from C57BL/6 (wild-type) and Cftr-/- mice in Ussing chambers and measured transcellular secretion of [14C]oxalate. Intestinal tissue isolated from Cftr-/- mice exhibited significantly less transcellular oxalate secretion than intestinal tissue of wild-type mice. However, glucose absorption, another representative intestinal transport process, did not differ in Cftr-/- tissue. Compared with wild-type mice, Cftr-/- mice showed reduced expression of SLC26A6 in duodenum by immunofluorescence and Western blot analysis. Furthermore, coexpression of CFTR stimulated SLC26A6-mediated Cl--oxalate exchange in Xenopus oocytes. In association with the profound defect in intestinal oxalate secretion, Cftr-/- mice had serum and urine oxalate levels 2.5-fold greater than those of wild-type mice. We conclude that defective intestinal oxalate secretion mediated by SLC26A6 may contribute to the hyperoxaluria observed in this mouse model of cystic fibrosis. Future studies are needed to address whether similar mechanisms contribute to the increased risk for calcium oxalate stone formation observed in patients with cystic fibrosis.


Subject(s)
Calcium Oxalate/metabolism , Cystic Fibrosis Transmembrane Conductance Regulator/physiology , Intestinal Mucosa/metabolism , Animals , Antiporters/physiology , Cystic Fibrosis Transmembrane Conductance Regulator/genetics , Hyperoxaluria/etiology , Mice , Mice, Knockout , Sulfate Transporters
6.
Am J Physiol Lung Cell Mol Physiol ; 310(8): L711-9, 2016 04 15.
Article in English | MEDLINE | ID: mdl-26851259

ABSTRACT

Cystic fibrosis (CF) is caused by homozygous mutations of the CF transmembrane conductance regulator (CFTR) Cl(-) channel, which result in chronic pulmonary infection and inflammation, the major cause of morbidity and mortality. Although these processes are clearly related to each other, each is likely to contribute to the pathology differently. Understanding the contribution of each of these processes to the overall pathology has been difficult, because they are usually so intimately connected. Various CF mouse models have demonstrated abnormal immune responses compared with wild-type (WT) littermates when challenged with live bacteria or bacterial products acutely. However, these studies have not investigated the consequences of persistent inflammation on lung tissue in CF mice, which may better model the lung pathology in patients. We characterized the lung pathology and immune response of Cftr(-/-) (CF) and Cftr(+/+) (WT) mice to chronic administration of Pseudomonas aeruginosa lipopolysaccharide (LPS). We show that, after long-term repeated LPS exposure, CF mice develop an abnormal and persistent immune response, which is associated with more robust structural changes in the lung than those observed in WT mice. Although CF mice and their WT littermates develop lung pathology after chronic exposure to LPS, the inflammation and damage resolve in WT mice. However, CF mice do not recover efficiently, and, as a consequence of their chronic inflammation, CF mice are more susceptible to morphological changes and lung remodeling. This study shows that chronic inflammation alone contributes significantly to aspects of CF lung pathology.


Subject(s)
Cystic Fibrosis/pathology , Lipopolysaccharides/pharmacology , Lung/pathology , Pneumonia/immunology , Airway Remodeling , Animals , Chemokine CXCL10/metabolism , Cystic Fibrosis/genetics , Cystic Fibrosis/immunology , Cystic Fibrosis Transmembrane Conductance Regulator/genetics , Lung/immunology , Mice, 129 Strain , Mice, Inbred C57BL , Mice, Inbred CFTR , Mice, Knockout , Pneumonia/pathology , Respiratory Mucosa/immunology , Respiratory Mucosa/metabolism , Respiratory Mucosa/pathology
7.
J Immunol ; 190(10): 5196-206, 2013 May 15.
Article in English | MEDLINE | ID: mdl-23606537

ABSTRACT

We have previously reported that TLR4 signaling is increased in LPS-stimulated cystic fibrosis (CF) macrophages (MΦs), contributing to the robust production of proinflammatory cytokines. The heme oxygenase-1 (HO-1)/CO pathway modulates cellular redox status, inflammatory responses, and cell survival. The HO-1 enzyme, together with the scaffold protein caveolin 1 (CAV-1), also acts as a negative regulator of TLR4 signaling in MΦs. In this study, we demonstrate that in LPS-challenged CF MΦs, HO-1 does not compartmentalize normally to the cell surface and instead accumulates intracellularly. The abnormal HO-1 localization in CF MΦs in response to LPS is due to decreased CAV-1 expression, which is controlled by the cellular oxidative state, and is required for HO-1 delivery to the cell surface. Overexpression of HO-1 or stimulating the pathway with CO-releasing molecules enhances CAV-1 expression in CF MΦs, suggesting a positive-feed forward loop between HO-1/CO induction and CAV-1 expression. These manipulations re-established HO-1 and CAV-1 cell surface localization in CF MΦs. Consistent with restoration of HO-1/CAV-1-negative regulation of TLR4 signaling, genetic or pharmacological (CO-releasing molecule 2) induced enhancement of this pathway decreased the inflammatory response of CF MΦs and CF mice treated with LPS. In conclusion, our results demonstrate that the counterregulatory HO-1/CO pathway, which is critical in balancing and limiting the inflammatory response, is defective in CF MΦs through a CAV-1-dependent mechanism, exacerbating the CF MΦ response to LPS. This pathway could be a potential target for therapeutic intervention for CF lung disease.


Subject(s)
Caveolin 1/metabolism , Cystic Fibrosis Transmembrane Conductance Regulator/metabolism , Heme Oxygenase-1/metabolism , Macrophages/immunology , Macrophages/metabolism , Adolescent , Adult , Animals , Caveolin 1/biosynthesis , Cells, Cultured , Child , Child, Preschool , Cystic Fibrosis/immunology , Cystic Fibrosis/metabolism , Cystic Fibrosis Transmembrane Conductance Regulator/genetics , Cystic Fibrosis Transmembrane Conductance Regulator/immunology , Female , Heme Oxygenase-1/biosynthesis , Humans , Inflammation/immunology , Lipopolysaccharides/immunology , Lung Diseases/immunology , Lung Diseases/metabolism , Male , Membrane Proteins/biosynthesis , Membrane Proteins/metabolism , Mice , Mice, Knockout , Nasal Polyps , Reactive Oxygen Species/metabolism , Signal Transduction , Toll-Like Receptor 4/metabolism , Young Adult
8.
Traffic ; 13(8): 1072-82, 2012 Aug.
Article in English | MEDLINE | ID: mdl-22510086

ABSTRACT

In enterocytes of the small intestine, endocytic trafficking of CFTR channels from the brush border membrane (BBM) to the subapical endosomes requires the minus-end motor, myosin VI (Myo6). The subapical localization of Myo6 is dependent on myosin Ia (Myo1a) the major plus-end motor associated with the BBM, suggestive of functional synergy between these two motors. In villus enterocytes of the Myo1a KO mouse small intestine, CFTR accumulated in syntaxin-3 positive subapical endosomes, redistributed to the basolateral domain and was absent from the BBM. In colon, where villi are absent and Myo1a expression is low, CFTR exhibited normal localization to the BBM in the Myo1a KO similar to WT. cAMP-stimulated CFTR anion transport in the small intestine was reduced by 58% in the KO, while anion transport in the colon was comparable to WT. Co-immunoprecipitation confirmed the association of CFTR with Myo1a. These data indicate that Myo1a is an important regulator of CFTR traffic and anion transport in the BBM of villus enterocytes and suggest that Myo1a may power apical CFTR movement into the BBM from subapical endosomes. Alternatively, it may anchor CFTR channels in the BBM of villus enterocytes as was proposed for Myo1a's role in BBM localization of sucrase-isomaltase.


Subject(s)
Cystic Fibrosis Transmembrane Conductance Regulator/metabolism , Enterocytes/metabolism , Myosin Heavy Chains/genetics , Animals , Caco-2 Cells , Chlorides , Colon/cytology , Electric Stimulation , Endocytosis , Enterocytes/cytology , Exocytosis , Humans , Intestine, Small/cytology , Ion Transport , Mice , Mice, Knockout , Microscopy, Confocal , Microvilli/metabolism , Myosin Heavy Chains/metabolism , Organ Specificity , Transport Vesicles/metabolism
9.
Eur J Pharmacol ; 978: 176771, 2024 Sep 05.
Article in English | MEDLINE | ID: mdl-38925289

ABSTRACT

The CFTR modulator Trikafta has markedly improved lung disease for Cystic Fibrosis (CF) patients carrying the common delta F508 (F508del-CFTR) CFTR mutation. F508del-CFTR results in an apical trafficking defect and loss of function in CFTR-expressing epithelial cells. However, Trikafta has not resulted in improved gastrointestinal function in CF patients. A humanized mouse model of F508del-CFTR was recently generated to evaluate CFTR modulators and other compounds to treat human F508del-CFTR CF intestinal disease. Short-term (4Ā h) treatment of rats with Dexamethasone (Dex) potently activates serum glucocorticoid kinase 1 (SGK1) and increases CFTR apical traffic and ion transport in the native intestine. This study examined CFTR localization and ion transport in intestinal segments from humanized F508del-CFTR mice following treatment with Dex in the presence/absence of Trikafta. Dex treatment improved apical CFTR localization and function but was inconsistent along intestinal segments. Combined treatment with Dex and Trikafta was superior to Dex alone but inconsistently improved CFTR localization and function. These data suggest further optimization of humanized CF mouse models will be necessary to test the efficacy of compounds to treat human CF intestinal disease.


Subject(s)
Cystic Fibrosis Transmembrane Conductance Regulator , Dexamethasone , Animals , Cystic Fibrosis Transmembrane Conductance Regulator/genetics , Cystic Fibrosis Transmembrane Conductance Regulator/metabolism , Cystic Fibrosis Transmembrane Conductance Regulator/deficiency , Humans , Mice , Dexamethasone/pharmacology , Protein Serine-Threonine Kinases/metabolism , Protein Serine-Threonine Kinases/genetics , Protein Serine-Threonine Kinases/deficiency , Intestinal Mucosa/metabolism , Intestinal Mucosa/drug effects , Intestines/drug effects , Cystic Fibrosis/drug therapy , Cystic Fibrosis/metabolism , Cystic Fibrosis/genetics , Enzyme Activation/drug effects , Protein Transport/drug effects , Mutation , Male , Indoles , Benzodioxoles
10.
Ir J Med Sci ; 2024 Sep 04.
Article in English | MEDLINE | ID: mdl-39230649

ABSTRACT

BACKGROUND: Adrenal myelolipomas are rare, benign, tumours of the adrenal cortex. AIMS: This study reports the experience of a tertiary adrenal surgery referral centre's approach to the management of patients with adrenal myelolipoma. METHODS: A retrospective observational cohort study was conducted on all adult patients (> 18Ā years age) diagnosed with adrenal myelolipoma from January 1, 2014, to December 30, 2022. Demographics, imaging characteristics, histological diagnosis (where applicable) and follow-up data were compared between patients undergoing surgery and those referred to surveillance. Indications for operative intervention were recorded at the time of multidisciplinary team discussion, consisting of surgeons, endocrinology physicians, radiologists, pathologists and specialist nursing representatives. RESULTS: Of the 522 patients with an adrenal lesion discussed in adrenal tumour meeting between 2014 and 2022, n = 15 (2.8%) were diagnosed with adrenal myelolipoma. Of the 15 patients, 4 underwent adrenalectomy at first presentation (27%), while 1 patient underwent adrenalectomy after interval follow-up. Indications for operative intervention were as follows: 'indeterminate lesion' (n = 3), 'abdominal pain and size (> 4Ā cm)' (n = 1) and 'mass effect on adjacent organs' (n = 1). The mean rate of lesion growth in patients referred for surveillance (n = 10) was 0.13Ā cm/year. Histology confirmed adrenal myelolipoma as the diagnosis in all resected tumours. CONCLUSIONS: For patients with adrenal myelolipoma, the presence of symptoms and/or indeterminate features on imaging may be more clinically useful indications for operative intervention over size alone. The surveillance of adrenal myelolipomas, even in patients with adrenal lesions > 4Ā cm, is a safe clinical strategy, provided the imaging characteristics are benign and patients remain asymptomatic.

11.
J Cyst Fibros ; 2024 Aug 05.
Article in English | MEDLINE | ID: mdl-39107154

ABSTRACT

BACKGROUND: Cystic Fibrosis (CF) is an autosomal recessive genetic disease caused by mutations in the gene encoding the cystic fibrosis transmembrane conductance regulator (CFTR) protein for which there is no cure. One approach to cure CF is to correct the underlying mutations in the CFTR gene. We have used triplex-forming peptide nucleic acids (PNAs) loaded into biodegradable nanoparticles (NPs) in combination with donor DNAs as reagents for correcting mutations associated with genetic diseases including CF. Previously, we demonstrated that PNAs induce recombination between a donor DNA and the CFTR gene, correcting the F508del CFTR mutation in human cystic fibrosis bronchial epithelial cells (CFBE cells) and in a CF murine model leading to improved CFTR function with low off-target effects, however the level of correction was still below the threshold for therapeutic cure. METHODS: Here, we report the use of next generation, chemically modified gamma PNAs (ƎĀ³PNAs) containing a diethylene glycol substitution at the gamma position for enhanced DNA binding. These modified ƎĀ³PNAs yield enhanced gene correction of F508del mutation in human bronchial epithelial cells (CFBE cells) and in primary nasal epithelial cells from CF mice (NECF cells). RESULTS: Treatment of CFBE cells and NECF cells grown at air-liquid interface (ALI) by NPs containing ƎĀ³tcPNAs and donor DNA resulted in increased CFTR function measured by short circuit current and improved gene editing (up to 32 %) on analysis of genomic DNA. CONCLUSIONS: These findings provide the basis for further development of PNA and NP technology for editing of the CFTR gene.

12.
J Leukoc Biol ; 2024 Oct 04.
Article in English | MEDLINE | ID: mdl-39365279

ABSTRACT

Extravasation of CCR2-positive monocytes into tissue and to the site of injury is a fundamental immunological response to infections. Nevertheless, exuberant recruitment and/or activity of these monocytes and monocyte-derived macrophages can propagate tissue damage, especially in chronic inflammatory disease conditions. We have previously shown that inhibiting the recruitment of CCR2-positive monocytes ameliorates lung tissue damage caused by chronic neutrophilic inflammation in cystic fibrosis (CF) mouse models. A potential concern with targeting monocyte recruitment for therapeutic benefit in CF, however, is whether they are essential for eradicating infections such as Pseudomonas aeruginosa (PA), a pathogen that commonly colonizes and damages the lungs of patients with CF. In this study, we investigated the role of CCR2-positive monocytes in the immune response to acute pulmonary PA infection. Our data show that the altered host immune response caused by the lack of monocyte recruitment to the lungs does not impact PA lung colonization, clearance, and the severity of the infection. These results also hold up in a CF mouse background, which have a hyper-inflammatory immune response, yet exhibit reduced bactericidal activity. Thus, we lay the groundwork for future studies to investigate the use of CCR2 inhibitors as a potential therapy to ameliorate lung tissue damage in CF. This could be given alone or as an adjunct therapy with CFTR modulators that significantly improve clinical outcomes for eligible patients, but do not completely resolve the persistent infection and inflammation that drive lung tissue damage.

13.
Nat Commun ; 15(1): 4247, 2024 May 18.
Article in English | MEDLINE | ID: mdl-38762483

ABSTRACT

The in vivo efficacy of polymeric nanoparticles (NPs) is dependent on their pharmacokinetics, including time in circulation and tissue tropism. Here we explore the structure-function relationships guiding physiological fate of a library of poly(amine-co-ester) (PACE) NPs with different compositions and surface properties. We find that circulation half-life as well as tissue and cell-type tropism is dependent on polymer chemistry, vehicle characteristics, dosing, and strategic co-administration of distribution modifiers, suggesting that physiological fate can be optimized by adjusting these parameters. Our high-throughput quantitative microscopy-based platform to measure the concentration of nanomedicines in the blood combined with detailed biodistribution assessments and pharmacokinetic modeling provides valuable insight into the dynamic in vivo behavior of these polymer NPs. Our results suggest that PACE NPs-and perhaps other NPs-can be designed with tunable properties to achieve desired tissue tropism for the in vivo delivery of nucleic acid therapeutics. These findings can guide the rational design of more effective nucleic acid delivery vehicles for in vivo applications.


Subject(s)
Macrophages , Nanoparticles , Polymers , Animals , Nanoparticles/chemistry , Tissue Distribution , Mice , Polymers/chemistry , Macrophages/metabolism , Humans , Female , Drug Delivery Systems , Mice, Inbred C57BL
14.
bioRxiv ; 2024 Sep 08.
Article in English | MEDLINE | ID: mdl-39282330

ABSTRACT

In utero gene editing has the potential to modify disease causing genes in multiple developing tissues before birth, possibly allowing for normal organ development, disease improvement, and conceivably, cure. In cystic fibrosis (CF), a disease that arises from mutations in the cystic fibrosis transmembrane conductance regulator ( CFTR ) gene, there are signs of multiorgan disease affecting the function of the respiratory, gastrointestinal, and reproductive systems already present at birth. Thus, treating CF patients early is crucial for preventing or delaying irreversible organ damage. Here we demonstrate proof-of-concept of multiorgan mutation correction in CF using peptide nucleic acids (PNAs) encapsulated in polymeric nanoparticles and delivered systemically in utero. In utero editing was associated with sustained postnatal CFTR activity, at a level similar to that of wild-type mice, in both respiratory and gastrointestinal tissue, without detection of off-target mutations in partially homologous loci. This work suggests that systemic in utero gene editing represents a viable strategy for treating monogenic diseases before birth that impact multiple tissue types.

15.
J Immunol ; 186(12): 6990-8, 2011 Jun 15.
Article in English | MEDLINE | ID: mdl-21593379

ABSTRACT

Morbidity and mortality in cystic fibrosis (CF) are due not only to abnormal epithelial cell function, but also to an abnormal immune response. We have shown previously that macrophages lacking CF transmembrane conductance regulator (CFTR), the gene mutated in CF, contribute significantly to the hyperinflammatory response observed in CF. In this study, we show that lack of functional CFTR in murine macrophages causes abnormal TLR4 subcellular localization. Upon LPS stimulation, CFTR macrophages have prolonged TLR4 retention in the early endosome and reduced translocation into the lysosomal compartment. This abnormal TLR4 trafficking leads to increased LPS-induced activation of the NF-κB, MAPK, and IFN regulatory factor-3 pathways and decreased TLR4 degradation, which affects downregulation of the proinflammatory state. In addition to primary murine cells, mononuclear cells isolated from CF patients demonstrate similar defects in response to LPS. Moreover, specific inhibition of CFTR function induces abnormal TLR4 trafficking and enhances the inflammatory response of wild-type murine cells to LPS. Thus, functional CFTR in macrophages influences TLR4 spatial and temporal localization and perturbs LPS-mediated signaling in both murine CF models and patients with CF.


Subject(s)
Cystic Fibrosis/immunology , Inflammation/immunology , Toll-Like Receptor 4/metabolism , Animals , Cystic Fibrosis/pathology , Humans , Mice , Protein Transport/immunology
17.
Proc Natl Acad Sci U S A ; 107(13): 6082-7, 2010 Mar 30.
Article in English | MEDLINE | ID: mdl-20231442

ABSTRACT

The cystic fibrosis transmembrane conductance regulator (CFTR) is expressed in many segments of the mammalian nephron, where it may interact with and modulate the activity of a variety of apical membrane proteins, including the renal outer medullary potassium (ROMK) K(+) channel. However, the expression of CFTR in apical cell membranes or its function as a Cl(-) channel in native renal epithelia has not been demonstrated. Here, we establish that CFTR forms protein kinase A (PKA)-activated Cl(-) channels in the apical membrane of principal cells from the cortical collecting duct obtained from mice. These Cl(-) channels were observed in cell-attached apical patches of principal cells after stimulation by forskolin/3-isobutyl-1-methylxanthine. Quiescent Cl(-) channels were present in patches excised from untreated tubules because they could be activated after exposure to Mg-ATP and the catalytic subunit of PKA. The single-channel conductance, kinetics, and anion selectivity of these Cl(-) channels were the same as those of recombinant mouse CFTR channels expressed in Xenopus laevis oocytes. The CFTR-specific closed-channel blocker CFTR(inh)-172 abolished apical Cl(-) channel activity in excised patches. Moreover, apical Cl(-) channel activity was completely absent in principal cells from transgenic mice expressing the DeltaF508 CFTR mutation but was present and unaltered in ROMK-null mice. We discuss the physiologic implications of open CFTR Cl(-) channels on salt handling by the collecting duct and on the functional CFTR-ROMK interactions in modulating the metabolic ATP-sensing of ROMK.


Subject(s)
Chloride Channels/metabolism , Cyclic AMP-Dependent Protein Kinases/metabolism , Cyclic AMP/metabolism , Cystic Fibrosis Transmembrane Conductance Regulator/metabolism , Kidney Tubules, Collecting/metabolism , Animals , Benzoates/pharmacology , Chloride Channels/antagonists & inhibitors , Cystic Fibrosis Transmembrane Conductance Regulator/antagonists & inhibitors , Cystic Fibrosis Transmembrane Conductance Regulator/deficiency , Cystic Fibrosis Transmembrane Conductance Regulator/genetics , Female , In Vitro Techniques , Kidney Cortex/metabolism , Kinetics , Mice , Mice, Inbred C57BL , Mice, Inbred CFTR , Mice, Knockout , Mice, Transgenic , Mutation , Oocytes/metabolism , Patch-Clamp Techniques , Potassium Channels, Inwardly Rectifying/deficiency , Potassium Channels, Inwardly Rectifying/genetics , Potassium Channels, Inwardly Rectifying/metabolism , Recombinant Proteins/genetics , Recombinant Proteins/metabolism , Thiazolidines/pharmacology , Xenopus laevis
18.
Nat Commun ; 14(1): 693, 2023 02 08.
Article in English | MEDLINE | ID: mdl-36755044

ABSTRACT

We are currently witnessing transformative change for people with cystic fibrosis with the introduction of small molecule, mutation-specific drugs capable of restoring function of the defective protein, cystic fibrosis transmembrane conductance regulator (CFTR). However, despite being a single gene disorder, there are multiple cystic fibrosis-causing genetic variants; mutation-specific drugs are not suitable for all genetic variants and also do not correct all the multisystem clinical manifestations of the disease. For many, there will remain a need for improved treatments. Those patients with gene variants responsive to CFTR modulators may have found these therapies to be transformational; research is now focusing on safely reducing the burden of symptom-directed treatment. However, modulators are not available in all parts of the globe, an issue which is further widening existing health inequalities. For patients who are not suitable for- or do not have access to- modulator drugs, alternative approaches are progressing through the trials pipeline. There will be challenges encountered in design and implementation of these trials, for which the established global CF infrastructure is a major advantage. Here, the Cystic Fibrosis National Research Strategy Group of the UK NIHR Respiratory Translational Research Collaboration looks to the future of cystic fibrosis therapies and consider priorities for future research and development.


Subject(s)
Cystic Fibrosis , Humans , Cystic Fibrosis/drug therapy , Cystic Fibrosis/genetics , Cystic Fibrosis Transmembrane Conductance Regulator/genetics , Cystic Fibrosis Transmembrane Conductance Regulator/metabolism , Mutation , Genetic Therapy
19.
Clin Chest Med ; 43(4): 717-725, 2022 12.
Article in English | MEDLINE | ID: mdl-36344076

ABSTRACT

Cystic fibrosis transmembrane conductance regulator (CFTR) modulator therapy brings hope to most patients with cystic fibrosis (CF), but not all. For approximately 12% of CF patients with premature termination codon mutations, large deletions, insertions, and frameshifts, the CFTR modulator therapy is not effective. Many believe that genetic-based therapies such as RNA therapies, DNA therapies, and gene editing technologies will be needed to treat mutations that are not responsive to modulator therapy. Delivery of these therapeutic agents to affected cells is the major challenge that will need to be overcome if we are to harness the power of these emerging therapies for the treatment of CF.


Subject(s)
Cystic Fibrosis Transmembrane Conductance Regulator , Cystic Fibrosis , Humans , Cystic Fibrosis Transmembrane Conductance Regulator/genetics , Cystic Fibrosis Transmembrane Conductance Regulator/therapeutic use , Cystic Fibrosis/genetics , Cystic Fibrosis/therapy , Genetic Therapy , Mutation
20.
Br J Radiol ; 95(1129): 20210642, 2022 Jan 01.
Article in English | MEDLINE | ID: mdl-34735299

ABSTRACT

OBJECTIVE: Adrenal adenomas are frequently picked up incidentally on cross-sectional imaging and are known to have a classic imaging appearance on CT and MRI. However, not all adrenal adenomas have this typical radiologic appearance. Our aim is to present the radiological features of atypical adrenocortical adenomas with pathological correlation. METHODS: All the imaging from the pathologically proven adrenal adenoma cases in our hospital (Tallaght University Hospital, Dublin, Ireland) database (from 2004 to 2019) was reviewed. 8 out of 48 cases (16%) had an atypical radiological appearance and were selected for presentation. RESULTS: Eight cases demonstrated atypical radiological features including heterogeneous density, incomplete washout on post-contrast imaging, the presence of macroscopic fat and calcification. Lipomatous metaplasia was present in two of the cases pathologically. CONCLUSION: Adrenocortical adenomas are the most common adrenal mass encountered on CT, however, may not always have classic imaging features. Radiologists should be familiar with both the typical and atypical imaging manifestations of these benign adrenal lesions. ADVANCES IN KNOWLEDGE: This paper comprehensively describes the atypical features of adrenocortical adenomas with case examples and radiologic-pathologic correlation. Guidelines and an approach to the work-up of adrenal lesions with atypical appearances are also provided.


Subject(s)
Adrenal Cortex Neoplasms/diagnostic imaging , Adrenal Cortex Neoplasms/pathology , Adrenocortical Adenoma/diagnostic imaging , Adrenocortical Adenoma/pathology , Adrenal Cortex Neoplasms/surgery , Adrenalectomy , Adrenocortical Adenoma/surgery , Aged , Calcinosis/pathology , Female , Humans , Lipoma/pathology , Magnetic Resonance Imaging , Male , Middle Aged , Tomography, X-Ray Computed
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