Jennifer L. Page scite author profile

Ribonucleotide reductase (RNR) catalyzes the rate-limiting step in nucleotide biosynthesis and plays a central role in genome maintenance. Although a number of regulatory mechanisms govern RNR activity, the physiologic effect of RNR deregulation had not previously been examined in an animal model. We show here that overexpression of the small RNR subunit potently and selectively induces lung neoplasms in transgenic mice and is mutagenic in cultured cells. Combining RNR deregulation with defects in DNA mismatch repair, the cellular mutation correction system, synergistically increased RNR-induced mutagenesis and carcinogenesis. Moreover, the proto-oncogene K-ras was identified as a frequent mutational target in RNR-induced lung neoplasms. Together, these results show that RNR deregulation promotes lung carcinogenesis through a mutagenic mechanism and establish a new oncogenic activity for a key regulator of nucleotide metabolism. Importantly, RNR-induced lung neoplasms histopathologically resemble human papillary adenocarcinomas and arise stochastically via a mutagenic mechanism, making RNR transgenic mice a valuable model for lung cancer.

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An Ectopic Expression Screen Reveals the Protective and Toxic Effects of Drosophila Seminal Fluid Proteins

Mueller¹,

2007

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In Drosophila melanogaster, seminal fluid regulates the reproductive and immune responses of mated females. Some seminal fluid proteins may provide protective functions to mated females, such as antimicrobial activity and/or stimulation of antimicrobial gene expression levels, while others appear to have negative effects, contributing to a ''cost of mating.'' To identify seminal proteins that could participate in these phenomena, we used a systemic ectopic expression screen to test the effects on unmated females of proteins normally produced by the male accessory gland (Acps). Of the 21 ectopically expressed Acps that we tested for ability to assist in the clearance of a bacterial infection with Serratia marcescens, 3 Acps significantly reduced the bacterial counts of infected females, suggesting a protective role. Of the 23 Acps that we tested for toxicity, 3 were toxic, including one that has been implicated in the cost of mating in another study. We also tested ectopic expression females for other Acp-induced effects, but found no additional Acps that affected egg laying or receptivity upon ectopic expression.

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Getting ahead: context-dependent responses to odorant filaments drive along-stream progress during odor tracking in blue crabs

Page

Dickman

Webster

et al. 2011

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SUMMARYThe chemosensory signal structure governing the upstream progress of blue crabs to an odorant source was examined. We used a three-dimensional laser-induced fluorescence system to collect chemical concentration data simultaneously with behavior observations of actively tracking blue crabs (Callinectes sapidus) in a variety of plume types. This allowed us to directly link chemical signal properties at the antennules and legs to subsequent upstream motion while altering the spatial and temporal intermittency characteristics of the sensory field. Our results suggest that odorant stimuli elicit responses in a binary fashion by causing upstream motion, provided the concentration at the antennules exceeds a specific threshold. In particular, we observed a significant association between crab velocity changes and odorant spike encounters defined using a threshold that is scaled to the mean of the instantaneous maximum concentration. Thresholds were different for each crab, indicating a context-sensitive response to signal dynamics. Our data also indicate that high frequency of odorant spike encounters terminate upstream movement. Further, the data provide evidence that the previous state of the crab and prior stimulus history influence the behavioral response (i.e. the response is context dependent). Two examples are: (1) crabs receiving prior odorant spikes attained elevated velocity more quickly in response to subsequent spikes; and (2) prior acceleration or deceleration of the crab influenced the response time period to a particular odorant spike. Finally, information from both leg and antennule chemosensors interact, suggesting parallel processing of odorant spike properties during navigation.

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Transgenic overexpression of ribonucleotide reductase improves cardiac performance

Nowakowski

Kolwicz

Korte

et al. 2013

Proc. Natl. Acad. Sci. U.S.A.

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We previously demonstrated that cardiac myosin can use 2-deoxy-ATP (dATP) as an energy substrate, that it enhances contraction and relaxation with minimal effect on calcium-handling properties in vitro, and that contractile enhancement occurs with only minor elevation of cellular [dATP]. Here, we report the effect of chronically enhanced dATP concentration on cardiac function using a transgenic mouse that overexpresses the enzyme ribonucleotide reductase (TgRR), which catalyzes the rate-limiting step in de novo deoxyribonucleotide biosynthesis. Hearts from TgRR mice had elevated left ventricular systolic function compared with wild-type (WT) mice, both in vivo and in vitro, without signs of hypertrophy or altered diastolic function. Isolated cardiomyocytes from TgRR mice had enhanced contraction and relaxation, with no change in Ca 2+ transients, suggesting targeted improvement of myofilament function. TgRR hearts had normal ATP and only slightly decreased phosphocreatine levels by 31 P NMR spectroscopy, and they maintained rate responsiveness to dobutamine challenge. These data demonstrate long-term (at least 5-mo) elevation of cardiac [dATP] results in sustained elevation of basal left ventricular performance, with maintained β-adrenergic responsiveness and energetic reserves. Combined with results from previous studies, we conclude that this occurs primarily via enhanced myofilament activation and contraction, with similar or faster ability to relax. The data are sufficiently compelling to consider elevated cardiac [dATP] as a therapeutic option to treat systolic dysfunction.metabolism | inotropy | cross-bridge cycling A wide variety of cardiac pathologies such as myocardial infarct, dilated cardiomyopathy, and congestive heart failure involve reduced systolic function of ventricles that often results from altered ATP-mediated actin-myosin (cross-bridge) cycling (1-4). The schematic shown in Fig. 1 outlines the basic components of this chemomechanical cycle that are critical to understand how cardiomyocytes use energy to develop tension and shortening: (i) ATP bound to detached myosin is hydrolyzed to ADP and inorganic phosphate (Pi); (ii) myosin binds to actin and undergoes the power-stroke associated with Pi release, tension development, and shortening; (iii) ADP is released from myosin; and (iv) ATP binds and precipitates myosin detachment from actin.We (5-8) and others (9-17) have reported that striated muscle myosin can use most naturally occurring nucleotides to support cross-bridge cycling and contraction to varying degrees. Although most are not as effective as ATP, we found that 2-deoxy-ATP (dATP) is more effective than ATP as a substrate for contraction of demembranated cardiac muscle, augmenting both force and shortening at all levels of Ca 2+ -mediated contractile activation (5-8). Our detailed biochemical and mechanical analysis suggests that dATP increases the rates of both myosin binding and product release (steps 2 and 3 in Fig. 1) (6). More recently, we reported that adenoviral overexpres...

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Avian red blood cell mitochondria produce more heat in winter than in autumn

et al. 2021

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Staying the course: chemical signal spatial properties and concentration mediate cross-stream motion in turbulent plumes

Page

Dickman

Webster

et al. 2011

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Mice lacking FABP9/PERF15 develop sperm head abnormalities but are fertile

Selvaraj

Asano

Page

et al. 2010

Developmental Biology

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The male germ cell-specific fatty acid binding protein 9 (FABP9/PERF15) is the major component of the murine sperm perforatorium and perinuclear theca. Based on its cytoskeletal association and sequence homology to myelin P2 (FABP8), it has been suggested that FABP9 tethers sperm membranes to the underlying cytoskeleton. Furthermore, its upregulation in apoptotic testicular germ cells and its increased phosphorylation status during capacitation suggested multiple important functions for FABP9. Therefore, we investigated specific functions for FABP9 by means of targeted gene disruption in mice. FABP9−/− mice were viable and fertile. Phenotypic analysis showed that FABP9−/− mice had significant increases in sperm head abnormalities (~8% greater than their WT cohorts); in particular, we observed the reduction or absence of the characteristic structural element known as the “ventral spur” in ~10% of FABP9−/− sperm. However, deficiency of FABP9 neither affected membrane tethering to the perinuclear theca nor the fatty acid composition of sperm. Moreover, epididymal sperm numbers were not affected in FABP9−/− mice. Therefore, we conclude that FABP9 plays only a minor role in providing the murine sperm head its characteristic shape and is not absolutely required for spermatogenesis or sperm function.

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Ribonucleotide reductase is not limiting for mitochondrial DNA copy number in mice

Ylikallio

Page

et al. 2010

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Ribonucleotide reductase (RNR) is the rate-limiting enzyme in deoxyribonucleoside triphosphate (dNTP) biosynthesis, with important roles in nuclear genome maintenance. RNR is also essential for maintenance of mitochondrial DNA (mtDNA) in mammals. The mechanisms regulating mtDNA copy number in mammals are only being discovered. In budding yeast, RNR overexpression resulted in increased mtDNA levels, and rescued the disease phenotypes caused by a mutant mtDNA polymerase. This raised the question of whether mtDNA copy number increase by RNR induction could be a strategy for treating diseases with mtDNA mutations. We show here that high-level overexpression of RNR subunits (Rrm1, Rrm2 and p53R2; separately or in different combinations) in mice does not result in mtDNA copy number elevation. Instead, simultaneous expression of two RNR subunits leads to imbalanced dNTP pools and progressive mtDNA depletion in the skeletal muscle, without mtDNA mutagenesis. We also show that endogenous RNR transcripts are downregulated in response to large increases of mtDNA in mice, which is indicative of nuclear-mitochondrial crosstalk with regard to mtDNA copy number. Our results establish that RNR is not limiting for mtDNA copy number in mice, and provide new evidence for the importance of balanced dNTP pools in mtDNA maintenance in postmitotic tissues.

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Jennifer L. Page

Broad Overexpression of Ribonucleotide Reductase Genes in Mice Specifically Induces Lung Neoplasms

An Ectopic Expression Screen Reveals the Protective and Toxic Effects of Drosophila Seminal Fluid Proteins

Getting ahead: context-dependent responses to odorant filaments drive along-stream progress during odor tracking in blue crabs

Transgenic overexpression of ribonucleotide reductase improves cardiac performance

Avian red blood cell mitochondria produce more heat in winter than in autumn

Staying the course: chemical signal spatial properties and concentration mediate cross-stream motion in turbulent plumes

Mice lacking FABP9/PERF15 develop sperm head abnormalities but are fertile

Ribonucleotide reductase is not limiting for mitochondrial DNA copy number in mice

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