Characterization of human placental tissue and cell lines for their xenobiotic and steroid disposition potential through quantitative proteomics

Laken  Kruger

doi:10.7273/000005005

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Characterization of human placental tissue and cell lines for their xenobiotic and steroid disposition potential through quantitative proteomics

Dissertation

Open access

Characterization of human placental tissue and cell lines for their xenobiotic and steroid disposition potential through quantitative proteomics

Laken Kruger

Washington State University

Doctor of Philosophy (PhD), Washington State University

2023

DOI:

https://doi.org/10.7273/000005005

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Abstract

Xenobiotic

Pharmacology

Placenta

Proteomics

Steroids

The placenta is a vital fetal endocrine organ that plays an important role in gas, nutrient, and hormone shuttling between maternal and fetal sides, but much is unknown about the placental functions due to logistical, ethical, and technical challenges in investigating this critical human organ. In particular, the xenobiotic and steroid disposition pathways of human placenta and their quantitative significance are not well characterized. Understanding the xenobiotic and steroid disposition pathways is key to mitigating the risks associated with xenobiotic exposure during pregnancy and understanding steroidal mechanisms that can be influenced by xenobiotics. While transcriptomics and targeted proteomics studies have provided some information on placental function, limited data are available on quantitative global proteomics of placenta and placental cells lines. Thus, utilizing global quantitative proteomics, we aim to i) characterize archived human placental tissue and ii) elucidate the resemblance of in vitro placental models to the placenta in terms of the steroid and xenobiotic pathways to better understand mechanisms of xenobiotic disposition and toxicity.

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Title: Characterization of human placental tissue and cell lines for their xenobiotic and steroid disposition potential through quantitative proteomics
Creators: Laken Kruger
Contributors: Bhagwat Prasad (Advisor)
Sayed S Daoud (Committee Member)
Alison Paquette (Committee Member)
Boyang Wu (Committee Member)
Awarding Institution: Washington State University
Academic Unit: College of Pharmacy and Pharmaceutical Sciences
Theses and Dissertations: Doctor of Philosophy (PhD), Washington State University
Publisher: Washington State University
Number of pages: 144
Identifiers: 99901019837001842
Language: English
Resource Type: Dissertation