Publications by authors named "Andrew N McDavid"

While animal model studies have extensively defined the mechanisms controlling cell diversity in the developing mammalian lung, there exists a significant knowledge gap with regards to late-stage human lung development. The NHLBI Molecular Atlas of Lung Development Program (LungMAP) seeks to fill this gap by creating a structural, cellular and molecular atlas of the human and mouse lung. Transcriptomic profiling at the single-cell level created a cellular atlas of newborn human lungs.

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  • - The study addresses the issue of limited ancestral diversity in genome-wide association studies (GWAS), which makes it hard to find genetic risk variants in non-European ancestry groups, focusing on Alzheimer's Disease (AD).
  • - Researchers analyzed a multi-ancestry GWAS dataset within the Alzheimer's Disease Genetics Consortium (ADGC) involving individuals from various ancestries, identifying 13 shared risk loci and 3 ancestry-specific loci, highlighting the benefits of diverse samples.
  • - The findings underscore the importance of including underrepresented populations in genetic research, suggesting that even smaller sample sizes can lead to the discovery of novel genetic variants related to AD and implicating specific biological pathways like amyloid regulation and neuronal development.
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Oxygen supplementation in preterm infants disrupts alveolar epithelial type 2 (AT2) cell proliferation through poorly understood mechanisms. Here, newborn mice are used to understand how hyperoxia stimulates an early aberrant wave of AT2 cell proliferation that occurs between Postnatal Days (PNDs) 0 and 4. RNA-sequencing analysis of AT2 cells isolated from PND4 mice revealed hyperoxia stimulates expression of mitochondrial-specific methylenetetrahydrofolate dehydrogenase 2 and other genes involved in mitochondrial one-carbon coupled folate metabolism and serine synthesis.

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Preterm birth increases the risk for pulmonary hypertension and heart failure in adulthood. Oxygen therapy can damage the immature cardiopulmonary system and may be partially responsible for the cardiovascular disease in adults born preterm. We previously showed that exposing newborn mice to hyperoxia causes pulmonary hypertension by 1 year of age that is preceded by a poorly understood loss of pulmonary vein cardiomyocyte proliferation.

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To develop treatments for salivary gland dysfunction, it is important to understand how human salivary glands are maintained under normal homeostasis. Previous data from our lab demonstrated that murine salivary acinar cells maintain the acinar cell population through self-duplication under conditions of homeostasis, as well as after injury. Early studies suggested that human acinar cells are mitotically active, but the identity of the resultant daughter cells was not clear.

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  • An amendment to the original paper has been released.
  • You can find the amendment through a link provided at the top of the paper.
  • This update may contain important changes or additional information related to the original content.
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  • Late-onset Alzheimer's disease (LOAD) is the most common type of dementia and is influenced by genetics.
  • Researchers studied a lot of people (94,437) to find specific genes that may increase the risk of developing LOAD, confirming 20 known ones and discovering 5 new ones.
  • They also found that certain genetic traits related to the immune system and how the brain processes proteins are linked to a higher risk of LOAD, suggesting there are more rare genes yet to be identified that could also play a role.
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Objective: Rheumatoid arthritis (RA) is characterized by the activation of B cells that produce anti-citrullinated protein antibodies (ACPAs) and rheumatoid factors (RFs), but the mechanisms by which tolerance is broken in these B cells remain incompletely understood. We undertook this study to investigate whether ACPA+ and RF+ B cells break tolerance through distinct molecular mechanisms.

Methods: We developed antigen-tetramers to isolate ACPA+ and RF+ B cells and performed single-cell RNA sequencing on 2,349 B cells from 6 RA patients and 1 healthy donor to analyze their immunoglobulin repertoires and transcriptional programs.

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Supplemental oxygen given to preterm infants has been associated with permanently altering postnatal lung development. Now that these individuals are reaching adulthood, there is growing concern that early life oxygen exposure may also promote cardiovascular disease through poorly understood mechanisms. We previously reported that adult mice exposed to 100% oxygen between postnatal days 0 and 4 develop pulmonary hypertension, defined pathologically by capillary rarefaction, dilation of arterioles and veins, cardiac failure, and a reduced lifespan.

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  • * Our research uncovered three significant variants: a protective variant in the PLCG2 gene and risk variants in ABI3 and TREM2, known for their roles in Alzheimer's susceptibility.
  • * The findings emphasize the importance of microglia, immune cells in the brain, suggesting that their genetic variations may contribute directly to the progression of Alzheimer's disease.
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  • - The study investigates a rare variant in the APP gene (A673T) that may protect against late-onset Alzheimer's disease (AD), originally found in Iceland, by comparing its frequency in US and Swedish populations.
  • - Researchers conducted a case-control analysis involving over 17,000 participants (including AD cases and cognitively normal controls) from multiple medical centers to assess the prevalence of this variant using advanced genotyping techniques.
  • - Results showed only a few individuals with the A673T variant; specifically, 3 heterozygous cases were found among US participants, indicating that this variant is not common in the studied populations and may not significantly impact AD risk assessment.
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  • The study investigates how known genetic risk factors for late-onset Alzheimer disease (LOAD) influence the age at which symptoms appear in affected individuals, particularly focusing on the APOE locus and other established risk loci.
  • Researchers utilized data from the Alzheimer Disease Genetics Consortium, analyzing 9,162 patients over several years, to determine the cumulative effects of these genetic factors on age at onset (AAO) of LOAD.
  • Results indicated that variants at the APOE locus are strongly associated with earlier onset of Alzheimer’s symptoms, with other loci like CR1, BIN1, and PICALM showing statistically significant effects as well, together explaining a portion of the AAO variation.
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Effect sizes of many common single nucleotide polymorphisms identified in genome-wide association studies generally explain only a modest fraction of the total estimated heritability in a variety of traits. One hypothesis is that rare variants with larger effects might account for the missing heritability. Despite advances in sequencing technology, discovering rare variants in a large population is still economically challenging.

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  • - Recent studies have discovered 9 new genetic risk factors (loci) linked to late-onset Alzheimer’s disease (LOAD) and suggest investigating how these affect gene expression in the brain.
  • - Researchers analyzed gene expression in the cerebellum and temporal cortex of around 400 deceased individuals, testing for associations between the identified risk variants and specific genes located nearby.
  • - The study found that certain genetic variants significantly impacted the expression of key genes related to LOAD, indicating that these eSNPs may help explain the connection between genetic risk factors and Alzheimer’s disease.
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We detected clonal mosaicism for large chromosomal anomalies (duplications, deletions and uniparental disomy) using SNP microarray data from over 50,000 subjects recruited for genome-wide association studies. This detection method requires a relatively high frequency of cells with the same abnormal karyotype (>5-10%; presumably of clonal origin) in the presence of normal cells. The frequency of detectable clonal mosaicism in peripheral blood is low (<0.

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Genome-wide association studies (GWAS) are a useful approach in the study of the genetic components of complex phenotypes. Aside from large cohorts, GWAS have generally been limited to the study of one or a few diseases or traits. The emergence of biobanks linked to electronic medical records (EMRs) allows the efficient reuse of genetic data to yield meaningful genotype-phenotype associations for multiple phenotypes or traits.

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  • The Alzheimer Disease Genetics Consortium (ADGC) conducted a thorough genome-wide association study on late-onset Alzheimer's disease, featuring a three-stage design that included both discovery and replication phases.
  • The study identified significant genetic associations with several genes, notably MS4A4A, CD2AP, EPHA1, and CD33, showing strong statistical significance across all stages.
  • Additionally, the research confirmed previous associations with other genes like CR1, CLU, BIN1, and PICALM as being linked to Alzheimer's susceptibility, while finding no association with the gene EXOC3L2.
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Genome-wide association studies (GWAS) are being conducted at an unprecedented rate in population-based cohorts and have increased our understanding of the pathophysiology of complex disease. Regardless of context, the practical utility of this information will ultimately depend upon the quality of the original data. Quality control (QC) procedures for GWAS are computationally intensive, operationally challenging, and constantly evolving.

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