Institution
Johns Hopkins University School of Medicine
Healthcare•Baltimore, Maryland, United States•
About: Johns Hopkins University School of Medicine is a healthcare organization based out in Baltimore, Maryland, United States. It is known for research contribution in the topics: Population & Cancer. The organization has 44277 authors who have published 79222 publications receiving 4788882 citations.
Topics: Population, Cancer, Transplantation, Prostate cancer, Poison control
Papers published on a yearly basis
Papers
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TL;DR: Aminotransferase elevation was common in the United States, and the majority could not be unexplained by alcohol consumption, viral hepatitis or hemochromatosis, and thus may represent nonalcoholic fatty liver disease.
1,300 citations
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TL;DR: In this paper, the c-Myc oncogenic transcription factor (Myc) is pathologically activated in many human malignancies and the predominant consequence of activation of Myc is widespread repression of miRNA expression.
Abstract: The c-Myc oncogenic transcription factor (Myc) is pathologically activated in many human malignancies. Myc is known to directly upregulate a pro-tumorigenic group of microRNAs (miRNAs) known as the miR-17-92 cluster. Through the analysis of human and mouse models of B cell lymphoma, we show here that Myc regulates a much broader set of miRNAs than previously anticipated. Unexpectedly, the predominant consequence of activation of Myc is widespread repression of miRNA expression. Chromatin immunoprecipitation reveals that much of this repression is likely to be a direct result of Myc binding to miRNA promoters. We further show that enforced expression of repressed miRNAs diminishes the tumorigenic potential of lymphoma cells. These results demonstrate that extensive reprogramming of the miRNA transcriptome by Myc contributes to tumorigenesis.
1,292 citations
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TL;DR: A direct correlation between the concentration of Aβ42 and the rate of amyloid deposition is demonstrated and suggests that PS1 variants do not simply alter the preferred cleavage site for γ-secretase, but rather that they have more complex effects on the regulation of ιsecretase and its access to substrates.
Abstract: Amyloid precursor protein (APP) is endoproteolytically processed by BACE1 and γ-secretase to release amyloid peptides (Aβ40 and 42) that aggregate to form senile plaques in the brains of patients with Alzheimer's disease (AD). The C-terminus of Aβ40/42 is generated by γ-secretase, whose activity is dependent upon presenilin (PS 1 or 2). Missense mutations in PS1 (and PS2) occur in patients with early-onset familial AD (FAD), and previous studies in transgenic mice and cultured cell models demonstrated that FAD-PS1 variants shift the ratio of Aβ40 : 42 to favor Aβ42. One hypothesis to explain this outcome is that mutant PS alters the specificity of γ-secretase to favor production of Aβ42 at the expense of Aβ40. To test this hypothesis in vivo, we studied Aβ40 and 42 levels in a series of transgenic mice that co-express the Swedish mutation of APP (APPswe) with two FAD-PS1 variants that differentially accelerate amyloid pathology in the brain. We demonstrate a direct correlation between the concentration of Aβ42 and the rate of amyloid deposition. We further show that the shift in Aβ42 : 40 ratios associated with the expression of FAD-PS1 variants is due to a specific elevation in the steady-state levels of Aβ42, while maintaining a constant level of Aβ40. These data suggest that PS1 variants do not simply alter the preferred cleavage site for γ-secretase, but rather that they have more complex effects on the regulation of γ-secretase and its access to substrates.
1,289 citations
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TL;DR: It is shown that mice deficient in fibrillin-1 have marked dysregulation of transforming growth factor-β (TGF-β) activation and signaling, resulting in apoptosis in the developing lung, and that perturbation of this function can contribute to the pathogenesis of disease.
Abstract: Marfan syndrome is an autosomal dominant disorder of connective tissue caused by mutations in fibrillin-1 (encoded by FBN1 in humans and Fbn1 in mice), a matrix component of extracellular microfibrils. A distinct subgroup of individuals with Marfan syndrome have distal airspace enlargement, historically described as emphysema, which frequently results in spontaneous lung rupture (pneumothorax; refs. 1‐3). To investigate the pathogenesis of genetically imposed emphysema, we analyzed the lung phenotype of mice deficient in fibrillin-1, an accepted model of Marfan syndrome 4 . Lung abnormalities are evident in the immediate postnatal period and manifest as a developmental impairment of distal alveolar septation. Aged mice deficient in fibrillin-1 develop destructive emphysema consistent with the view that early developmental perturbations can predispose to late-onset, seemingly acquired phenotypes. We show that mice deficient in fibrillin-1 have marked dysregulation of transforming growth factor-β (TGF-β) activation and signaling, resulting in apoptosis in the developing lung. Perinatal antagonism of TGF-β attenuates apoptosis and rescues alveolar septation in vivo. These data indicate that matrix sequestration of cytokines is crucial to their regulated activation and signaling and that perturbation of this function can contribute to the pathogenesis of disease.
1,283 citations
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TL;DR: Clinical trials can (and should) be initiated to test the hypothesis that incorporation of HIF inhibitors into current standard-of-care therapy will increase the survival of cancer patients.
1,281 citations
Authors
Showing all 44754 results
Name | H-index | Papers | Citations |
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Robert Langer | 281 | 2324 | 326306 |
Bert Vogelstein | 247 | 757 | 332094 |
Solomon H. Snyder | 232 | 1222 | 200444 |
Steven A. Rosenberg | 218 | 1204 | 199262 |
Kenneth W. Kinzler | 215 | 640 | 243944 |
Hagop M. Kantarjian | 204 | 3708 | 210208 |
Mark P. Mattson | 200 | 980 | 138033 |
Stuart H. Orkin | 186 | 715 | 112182 |
Paul G. Richardson | 183 | 1533 | 155912 |
Aaron R. Folsom | 181 | 1118 | 134044 |
Gonçalo R. Abecasis | 179 | 595 | 230323 |
Jie Zhang | 178 | 4857 | 221720 |
Daniel R. Weinberger | 177 | 879 | 128450 |
David Baker | 173 | 1226 | 109377 |
Eliezer Masliah | 170 | 982 | 127818 |