Tatiana N. Castro-Padovani scite author profile

The Lyme disease spirochete, Borrelia burgdorferi , persists in nature by alternatingly cycling between ticks and vertebrates. During each stage of the infectious cycle, B. burgdorferi produces surface proteins that are necessary for interactions with the tick or vertebrate tissues it encounters while also repressing the synthesis of unnecessary proteins.

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Reduced Wheel Running via a High-Fat Diet Is Reversed by a Chow Diet with No Added Benefit from Fecal Microbial Transplants

Letsinger

YANG

Menon

et al. 2022

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Chronic overfeeding via a high-fat/high-sugar (HFHS) diet decreases wheel running and substantially alters the gut metabolome of C57BL/6J mice. In this study, we tested the hypothesis that fecal microbial transplants can modulate the effect of diet on wheel running. Methods: Singly housed, 6-wk-old male C57BL/6J mice were fed either a grain-based diet (CHOW) or HFHS diet and provided a running wheel for 13 wk. Low-active, HFHS-exposed mice were then either switched to a CHOW diet and given an oral fecal microbial transplant from mice fed the CHOW diet, switched to a CHOW diet and given a sham transplant, or remained on the HFHS diet and given a fecal microbial transplant from mice fed the CHOW diet. Total wheel running, nutrient intake, body composition, fecal microbial composition, fecal metabolite composition, and liver steatosis were measured at various times throughout the study. Results: We found that an HFHS diet decreases wheel running activity, increases body fat, and decreases microbial alpha diversity compared with a CHOW diet. Improvements in wheel running, body composition, and microbial alpha diversity were accomplished within 2 wk for mice switched from an HFHS diet to a CHOW diet with no clear evidence of an added benefit from fecal transplants. A fecal transplant from mice fed a CHOW diet without altering diet did not improve wheel running or body composition. Wheel running, body composition, fecal microbial composition, fecal metabolite composition, and liver steatosis percentage were primarily determined by diet. Conclusions: Our results suggest that diet is a primary mediator of wheel running with no clear effect from fecal microbial transplants.

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Gac is a transcriptional repressor of the Lyme disease spirochete’s OspC virulence-associated surface protein

Castro-Padovani

Saylor

Husted

et al. 2022

Preprint

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Borrelia burgdorferi (sensu lato) requires its surface-exposed OspC protein in order to establish infection of humans and other vertebrate hosts. Lyme disease spirochetes initiate production of OspC when the vector tick begins to feed on the blood of a vertebrate host, and the spirochetes ceases production of OspC soon after establishment of infection. Bacteria that either do not produce OspC during transmission, or fail to repress OspC after infection is established, are rapidly cleared by the host. The molecular mechanisms controlling OspC production are largely unstudied. Herein, we identified a borrelial protein, Gac, that binds with high affinity to the ospC promoter and 5' adjacent DNA. A combination of biochemical analyses and investigations of genetically-manipulated bacteria demonstrated that Gac is a transcriptional repressor of ospC. This is a substantial advance toward understanding how the Lyme disease spirochete controls production of the essential OspC virulence factor, and identifies a novel target for preventative and curative therapies.

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“It All Rolls Downstream: Upstream Control of Physical Activity Regulation”

Breidenbach

Liu

et al. 2023

Preprint

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Physical activity is regulated by a variety of genetic molecules. However, the pathways through which those molecules work to regulate activity is largely unknown. The purpose of this study was to gather the known genetic molecules that are associated with activity regulation and define overall upstream regulator pathways through which these molecules work. We conducted a systematic review to gather all available published datasets related to physical activity regulation, standardized the data for genomic location and species, and used this data, in an unbiased manner to create a dataset that was used: (1) to physically map and visualize all identified molecules to homologous chromosome locations and (2) as the dataset for which an Upstream Regulator Analysis (URA) was conducted using Qiagen Ingenuity Pathway Analysis (IPA) software. Our search resulted in 469 genetic molecules (e.g. genomic variant, transcript, protein, micro-RNA) that were split into brain (n=366) and muscle (n=345) sub-groups, which was our attempt to separate differences in central vs peripheral pathways. The brain and muscle data sets had several potential upstream regulators, the top-rated being β-estradiol as a regulator for 19.5% and 21% of the brain and muscle datasets respectively. To our knowledge, β-estradiol’s identification as a potential regulator, is the first evidence to link the well-known effects of sex hormones on physical activity with genetic regulation of physical activity. There were a variety of potential upstream regulators for the molecules collected in this review, but interestingly, three of the top five for both brain and muscle are nuclear receptor binding ligands; estradiol (estrogen receptor), dexamethasone (glucocorticoid receptor), and tretinoin (retinoic acid receptor), indicating a potential role of nuclear receptors in the regulation of physical activity. Selective nuclear receptor modulation may be an area of interest in future mechanistic studies of the genetic regulation of physical activity.

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Gac Is a Transcriptional Repressor of the Lyme Disease Spirochete’s OspC Virulence-Associated Surface Protein

et al. 2023

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