Your search keyword '"Clevenger, Stephanie"' showing total 2 results

1. Inhibition of NFAT promotes loss of tissue resident uterine natural killer cells and attendant pregnancy complications in humans.

Author

Asiimwe R, Knott B, Greene ME, Wright E, Bell M, Epstein D, Yates SD, Gonzalez MV, Fry S, Boydston E, Clevenger S, Locke JE, Brocato BE, Burgan CM, Burney R, Arora N, Duncan VE, Richter HE, Gunn D, Freud AG, Little SC, and Porrett PM

Abstract

Uterine natural killer cells (uNKs) are a tissue resident lymphocyte population that are critical for pregnancy success. Although mouse models have demonstrated that NK deficiency results in abnormal placentation and poor pregnancy outcomes, the generalizability of this knowledge to humans remains unclear. Here we identify uterus transplant (UTx) recipients as a human population with reduced uNK cells and altered pregnancy phenotypes. We show that the NK reduction in UTx correlates with impaired transcriptional programming of NK tissue residency arising from the inhibition of NFAT-mediated signaling. Our observations suggest that NFAT-dependent genes modulate multiple molecular tissue residency programs in uNKs. These include early residency programs involving AP-1-family transcription factors and TGF-β-mediated upregulation of surface integrins. Collectively, our data identify a previously undescribed role for NFAT in uterine NK tissue residency and provide novel mechanistic insights into the biologic basis of pregnancy complications due to alteration of tissue resident NK subsets in humans., One Sentence Summary: Role of NFAT in uterine NK cell tissue residency.

Published

2024

2. Comparison of methods, storage conditions, and time to analysis of serum and urine creatinine measured from microsamples by liquid chromatography mass spectrometery (LC/MS) vs. Jaffe.

Author

Askenazi DJ, Moore JF, Fineberg N, Koralkar R, Clevenger S, and Sharer JD

Subjects

Analysis of Variance, Cryopreservation, Humans, Time Factors, Blood Chemical Analysis standards, Chromatography, Liquid, Creatinine blood, Creatinine urine, Mass Spectrometry, Specimen Handling standards, Urinalysis standards

Abstract

Background: Measurement of serum creatinine (SCr) and urine creatinine (UCr) is regularly used in clinical and research settings. For small animal experiments and for studies in which sample collection is spare (i.e. neonatal cohorts), measuring SCr and UCr using tiny amounts of sample (as low as 10 mcl) would maximize exploration and minimize iatrogenic blood loss., Methods: We performed an evaluation in six healthy adults to determine differences between SCr and UCr values in different methodologies and storage environments and time. Study was conducted using 20 mcl of sample. Analyses were done using two-way repeated measures of ANOVA., Results: Scr values showed no significant differences between LC/MS vs. Jaffe. However, the SCr using LC/MS method was lowest when measured immediately compared to other time points (F = 7.2; P< 0.001). Similarly, Jaffe measurements showed changes in the mean differences over time; however, these were not significant. UCr values were consistently higher using LC/MS than Jaffe (F = 19; P< 0.01), and UCr changed over time (F = 8.7; P < 0.02). In addition, the interaction term for method and time was also significant (F = 5.8; P < 0.04) which reflects the stability of the Jaffe measurements over time whereas the LC/MS measurements declined; especially after being frozen for 1 year (P < 0.001)., Conclusion: UCr measured by Jaffe is lower than samples measured by LC/MS. UCr measurements by LC/MS vary more over time, mostly due to the sample measured after 1 year; therefore, storage of urine for more than 90 days measured by LC/MS may provide altered results., (© 2014 Wiley Periodicals, Inc.)

Published

2014