Autosomal recessive retinal degenerative diseases cause visual impairment and blindness in both humans and dogs. Currently, no standard treatment is available, but pioneering gene therapy-based ...canine models have been instrumental for clinical trials in humans. To study a novel form of retinal degeneration in Labrador retriever dogs with clinical signs indicating cone and rod degeneration, we used whole-genome sequencing of an affected sib-pair and their unaffected parents. A frameshift insertion in the ATP binding cassette subfamily A member 4 (ABCA4) gene (c.4176insC), leading to a premature stop codon in exon 28 (p.F1393Lfs*1395), was identified. In contrast to unaffected dogs, no full-length ABCA4 protein was detected in the retina of an affected dog. The ABCA4 gene encodes a membrane transporter protein localized in the outer segments of rod and cone photoreceptors. In humans, the ABCA4 gene is associated with Stargardt disease (STGD), an autosomal recessive retinal degeneration leading to central visual impairment. A hallmark of STGD is the accumulation of lipofuscin deposits in the retinal pigment epithelium (RPE). The discovery of a canine homozygous ABCA4 loss-of-function mutation may advance the development of dog as a large animal model for human STGD.
Abstract Background Identifying chemical mentions within the Alzheimer’s and dementia literature can provide a powerful tool to further therapeutic research. Leveraging the Chemical Entities of ...Biological Interest (ChEBI) ontology, which is rich in hierarchical and other relationship types, for entity normalization can provide an advantage for future downstream applications. We provide a reproducible hybrid approach that combines an ontology-enhanced PubMedBERT model for disambiguation with a dictionary-based method for candidate selection. Results There were 56,553 chemical mentions in the titles of 44,812 unique PubMed article abstracts. Based on our gold standard, our method of disambiguation improved entity normalization by 25.3 percentage points compared to using only the dictionary-based approach with fuzzy-string matching for disambiguation. For the CRAFT corpus, our method outperformed baselines (maximum 78.4%) with a 91.17% accuracy. For our Alzheimer’s and dementia cohort, we were able to add 47.1% more potential mappings between MeSH and ChEBI when compared to BioPortal. Conclusion Use of natural language models like PubMedBERT and resources such as ChEBI and PubChem provide a beneficial way to link entity mentions to ontology terms, while further supporting downstream tasks like filtering ChEBI mentions based on roles and assertions to find beneficial therapies for Alzheimer’s and dementia.
Anthracyclines cause progressive cardiotoxicity whose ultimate severity is individual to the patient. Genetic determinants contributing to this variation are difficult to study using current mouse ...models. Our objective was to determine whether a spectrum of anthracycline induced cardiac disease can be elicited across 10 Collaborative Cross mouse strains given the same dose of doxorubicin. Mice from ten distinct strains were given 5 mg/kg of doxorubicin intravenously once weekly for 5 weeks (total 25 mg/kg). Mice were killed at acute or chronic timepoints. Body weight was assessed weekly, followed by terminal complete blood count, pathology and a panel of biomarkers. Linear models were fit to assess effects of treatment, sex, and sex-by-treatment interactions for each timepoint. Impaired growth and cardiac pathology occurred across all strains. Severity of these varied by strain and sex, with greater severity in males. Cardiac troponin I and myosin light chain 3 demonstrated strain- and sex-specific elevations in the acute phase with subsequent decline despite ongoing progression of cardiac disease. Acute phase cardiac troponin I levels predicted the ultimate severity of cardiac pathology poorly, whereas myosin light chain 3 levels predicted the extent of chronic cardiac injury in males. Strain- and sex-dependent renal toxicity was evident. Regenerative anemia manifested during the acute period. We confirm that variable susceptibility to doxorubicin-induced cardiotoxicity observed in humans can be modeled in a panel of CC strains. In addition, we identified a potential predictive biomarker in males. CC strains provide reproducible models to explore mechanisms contributing to individual susceptibility in humans.
Seasonal infection rates of individual viruses are influenced by synergistic or inhibitory interactions between coincident viruses. Endemic patterns of SARS-CoV-2 and influenza infection overlap ...seasonally in the Northern hemisphere and may be similarly influenced. We explored the immunopathologic basis of SARS-CoV-2 and influenza A (H1N1pdm09) interactions in Syrian hamsters. H1N1 given 48 h prior to SARS-CoV-2 profoundly mitigated weight loss and lung pathology compared to SARS-CoV-2 infection alone. This was accompanied by the normalization of granulocyte dynamics and accelerated antigen-presenting populations in bronchoalveolar lavage and blood. Using nasal transcriptomics, we identified a rapid upregulation of innate and antiviral pathways induced by H1N1 by the time of SARS-CoV-2 inoculation in 48 h dual-infected animals. The animals that were infected with both viruses also showed a notable and temporary downregulation of mitochondrial and viral replication pathways. Quantitative RT-PCR confirmed a decrease in the SARS-CoV-2 viral load and lower cytokine levels in the lungs of animals infected with both viruses throughout the course of the disease. Our data confirm that H1N1 infection induces rapid and transient gene expression that is associated with the mitigation of SARS-CoV-2 pulmonary disease. These protective responses are likely to begin in the upper respiratory tract shortly after infection. On a population level, interaction between these two viruses may influence their relative seasonal infection rates.
Earlier studies demonstrated that blood 5‐hydroxytryptamine (5‐HT) is elevated in patients with COVID‐19‐associated diarrhea with higher severity of symptoms. We hypothesize that disruption of ...vectorial Cl transport by 5‐HT may be critical in determining the alveolar flooding and abnormalities in intestinal Cl secretion through stimulation of anoctamin 1(ANO1) Cl channel. Using western blot, immunostaining, and electrophysiology, we characterized the localization of human ANO1 and its stimulation by 5‐HT on Cl secretion in lung and intestinal epithelium. Because calcium‐activated chloride current in human intestinal epithelia remains controversial, we examined the localization of ANO1 in the human terminal ileum and colonic tissue using confocal microscopy. Our results indicated that ANO1 was localized predominantly at the brush‐border membrane and co‐localized with the brush‐border membrane marker villin. ANO1 is not present in goblet cells. The anti‐ANO1 antibody recognized a protein of appropriate size in human colonic tissue. The specificity of the ANO1 antibody was tested by immunoblot analysis of lysates from human colorectal cancer tissues, where it displayed amplified ANO1 protein expression. We next confirmed ANO1‐currents activated by 5‐HT in the Caco‐2 cells by patch‐clamp measurements of whole‐cell current. The application of 100 nM 5‐HT produced a typical outward rectification. CaCCinh‐A01, a specific ANO1 blocker, inhibited the currents. The half‐maximal effective concentration value for the effects of 5‐HT was estimated at 21.8 ± 13.7 nM with a Hill coefficient of 0.89 ± 0.16. These results indicated that 5‐HT evoked calcium‐activated Cl currents through ANO1 channels. ANO1 is expressed in Calu 3 cells. We next confirmed the presence of ANO1 currents activated by 5‐HT in Calu‐3 cells by the Ussing chamber experiments. Serosal addition of 5‐HT produced an immediate and significant increase in Isc in Calu‐3 cells that was inhibited by the ANO1 selective inhibitor T16Ainh‐A01. Finally, we demonstrate that SARS‐CoV2 infection led to enterochromaffin cell hyperplasia in the intestinal epithelium of Syrian Hamster with a possible elevation of 5‐HT, which could explain the severity of symptoms in COVID‐19 associated diarrheal patients.
In conclusion, SARS‐CoV2 infection resulted in intestinal enterochromaffin cells hyperplasia that could elevate 5‐HT. Elevated 5‐HT activates luminal ANO1 CaCC in the intestinal and lung epithelium by a mechanism that appears to involve the rise of Ca2+i. Our data suggest that 5‐HT may be a critical determinant of the COVID‐19 associated diarrhea and flooding of alveoli that have considerable implications for COVID‐19 therapy.
Surfactant protein C (SPC), a key component of pulmonary surfactant, also plays a role in regulating inflammation. SPC deficiency in patients and mouse models is associated with increased ...inflammation and delayed repair, but the key drivers of SPC-regulated inflammation in response to injury are largely unknown. This study focuses on a new mechanism of SPC as an anti-inflammatory molecule using SPC-TK/SPC-KO (surfactant protein C-thymidine kinase/surfactant protein C knockout) mice, which represent a novel sterile injury model that mimics clinical acute respiratory distress syndrome (ARDS). SPC-TK mice express the inducible suicide gene thymidine kinase from by the SPC promoter, which targets alveolar type 2 (AT2) cells for depletion in response to ganciclovir (GCV). We compared GCV-induced injury and repair in SPC-TK mice that have normal endogenous SPC expression with SPC-TK/SPC-KO mice lacking SPC expression. In contrast to SPC-TK mice, SPC-TK/SPC-KO mice treated with GCV exhibited more severe inflammation, resulting in over 90% mortality; there was only 8% mortality of SPC-TK animals. SPC-TK/SPC-KO mice had highly elevated inflammatory cytokines and granulocyte infiltration in the bronchoalveolar lavage (BAL) fluid. Consistent with a proinflammatory phenotype, immunofluorescence revealed increased phosphorylated signal transduction and activation of transcription 3 (pSTAT3), suggesting enhanced Janus kinase (JAK)/STAT activation in inflammatory and AT2 cells of SPC-TK/SPC-KO mice. The level of suppressor of cytokine signaling 3, an anti-inflammatory mediator that decreases pSTAT3 signaling, was significantly decreased in the BAL fluid of SPC-TK/SPC-KO mice. Hyperactivation of pSTAT3 and inflammation were rescued by AZD1480, a JAK1/2 inhibitor. Our findings showing a novel role for SPC in regulating inflammation via JAK/STAT may have clinical applications.
Animals provide indispensable models to translate basic mechanistic discoveries and realize their therapeutic potential in humans. Conversely, advances in human medicine often inform management of ...similar conditions in clinical veterinary medicine. In this paper, key experimental model species are introduced, with emphasis on genetic contributions of the mouse. Its role and those of larger animal models are described in common ocular research areas including intraocular neoplasia, corneal epithelial and stromal disease, cataract, uveitis, glaucoma, and retinal dystrophies. Emphasis is placed on those conditions shared by humans and domestic animals, with the intent of exploring how the study of comparable conditions in humans, domestic animals, and laboratory animals informs one another.
A replication study of a previous genome-wide association study (GWAS) suggested that a SNP linked to the POLB gene is associated with systemic lupus erythematosus (SLE). This SNP is correlated with ...decreased expression of Pol β, a key enzyme in the base excision repair (BER) pathway. To determine whether decreased Pol β activity results in SLE, we constructed a mouse model of POLB that encodes an enzyme with slow DNA polymerase activity. We show that mice expressing this hypomorphic POLB allele develop an autoimmune pathology that strongly resembles SLE. Of note, the mutant mice have shorter immunoglobulin heavy-chain junctions and somatic hypermutation is dramatically increased. These results demonstrate that decreased Pol β activity during the generation of immune diversity leads to lupus-like disease in mice, and suggest that decreased expression of Pol β in humans is an underlying cause of SLE.
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•Mutation of POLB leads to lupus in mice•Mutation of Pol B results in short CDR3 regions during VDJ recombination in B cells•Large numbers of mutations in variable regions lead to SLE•Mutation of DNA repair genes may lead to SLE
Although aberrant DNA repair has long been suspected to lead to systemic lupus erythematosus (SLE), there is little evidence to support this idea. Here, Sweasy and colleagues show that mutation of the POLB gene results in SLE in mice. They show that low activity of the DNA polymerase beta mutant protein leads to the production of autoantibodies, most likely as a result of inefficient DNA repair during V(D)J recombination and somatic hypermutation.
Recent studies suggest that superoxide dismutase 1 (SOD1)-linked amyotrophic lateral sclerosis results from destabilization and misfolding of mutant forms of this abundant cytosolic enzyme. Here, we ...have tracked the expression and fate of a misfolding-prone human SOD1, G85R, fused to YFP, in a line of transgenic G85R SOD1-YFP mice. These mice, but not wild-type human SOD1-YFP transgenics, developed lethal paralyzing motor symptoms at 9 months. In situ RNA hybridization of spinal cords revealed predominant expression in motor neurons in spinal cord gray matter in all transgenic animals. Concordantly, G85R SOD-YFP was diffusely fluorescent in motor neurons of animals at 1 and 6 months of age, but at the time of symptoms, punctate aggregates were observed in cell bodies and processes. Biochemical analyses of spinal cord soluble extracts indicated that G85R SOD-YFP behaved as a misfolded monomer at all ages. It became progressively insoluble at 6 and 9 months of age, associated with presence of soluble oligomers observable by gel filtration. Immunoaffinity capture and mass spectrometry revealed association of G85R SOD-YFP, but not WT SOD-YFP, with the cytosolic chaperone Hsc70 at all ages. In addition, 3 Hsp110's, nucleotide exchange factors for Hsp70s, were captured at 6 and 9 months. Despite such chaperone interactions, G85R SOD-YFP formed insoluble inclusions at late times, containing predominantly intermediate filament proteins. We conclude that motor neurons, initially "compensated" to maintain the misfolded protein in a soluble state, become progressively unable to do so.
Identification of micrometastatic disease at the time of surgery remains extremely challenging in ovarian cancer patients. We used fluorescence microscopy, an in vivo imaging system and a ...fluorescence stereo microscope to evaluate fluorescence distribution in Claudin‐3‐ and ‐4‐overexpressing ovarian tumors, floating tumor clumps isolated from ascites and healthy organs. To do so, mice harboring chemotherapy‐naïve and chemotherapy‐resistant human ovarian cancer xenografts or patient‐derived xenografts (PDXs) were treated with the carboxyl‐terminal binding domain of the Clostridium perfringens enterotoxin (c‐CPE) conjugated to FITC (FITC‐c‐CPE) or the near‐infrared (NIR) fluorescent tag IRDye CW800 (CW800‐c‐CPE) either intraperitoneally (IP) or intravenously (IV). We found tumor fluorescence to plateau at 30 min after IP injection of both the FITC‐c‐CPE and the CW800‐c‐CPE peptides and to be significantly higher than in healthy organs (p < 0.01). After IV injection of CW800‐c‐CPE, tumor fluorescence plateaued at 6 hr while the most favorable tumor‐to‐background fluorescence ratio (TBR) was found at 48 hr in both mouse models. Importantly, fluorescent c‐CPE was highly sensitive for the in vivo visualization of peritoneal micrometastatic tumor implants and the identification of ovarian tumor spheroids floating in malignant ascites that were otherwise not detectable by conventional visual observation. The use of the fluorescent c‐CPE peptide may represent a novel and effective optical approach at the time of primary debulking surgery for the real‐time detection of micrometastatic ovarian disease overexpressing the Claudin‐3 and ‐4 receptors or the identification of residual disease at the time of interval debulking surgery after neoadjuvant chemotherapy treatment.
What's new?
Intraoperative detection of residual tumor is an emerging technique aimed at improving the prognosis of women with ovarian cancer. The authors developed a new system using the carboxy‐terminal fragment of Clostridium Perfringens Enterotoxin (c‐CPE) conjugated to fluorescent fluorophores to successfully mark microscopic tumor deposits in mouse models of chemotherapy‐naïve and chemotherapy‐resistant ovarian cancer. C‐CPE binds to claudin 3/4 receptors, which the authors showed earlier are highly overexpressed on most types of ovarian cancer, thus providing a new tumor‐specific tool to minimize micrometastic disease in patients with ovarian cancer.
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