Frontiers in Pharmacology (Jul 2024)

Investigating the value of urinary biomarkers in relation to lupus nephritis histopathology: present insights and future prospects

  • Qianyu Guo,
  • Qianyu Guo,
  • Pengyan Qiao,
  • Pengyan Qiao,
  • Juanjuan Wang,
  • Juanjuan Wang,
  • Li Zhao,
  • Zhiying Guo,
  • Zhiying Guo,
  • Xiaochen Li,
  • Xiaochen Li,
  • Xiuying Fan,
  • Xiuying Fan,
  • Chong Yu,
  • Chong Yu,
  • Liyun Zhang,
  • Liyun Zhang,
  • Liyun Zhang,
  • Liyun Zhang

DOI
https://doi.org/10.3389/fphar.2024.1421657
Journal volume & issue
Vol. 15

Abstract

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Lupus nephritis (LN), a leading cause of death in Systemic Lupus Erythematosus (SLE) patients, presents significant diagnostic and prognostic challenges. Although renal pathology offers critical insights regarding the diagnosis, classification, and therapy for LN, its clinical utility is constrained by the invasive nature and limited reproducibility of renal biopsies. Moreover, the continuous monitoring of renal pathological changes through repeated biopsies is impractical. Consequently, there is a growing interest in exploring urine as a non-invasive, easily accessible, and dynamic “liquid biopsy” alternative to guide clinical management. This paper examines novel urinary biomarkers from a renal pathology perspective, encompassing cellular components, cytokines, adhesion molecules, auto-antibodies, soluble leukocyte markers, light chain fragments, proteins, small-molecule peptides, metabolomics, urinary exosomes, and ribonucleic acids. We also discuss the application of combined models comprising multiple biomarkers in assessing lupus activity. These innovative biomarkers and models offer insights into LN disease activity, acute and chronic renal indices, fibrosis, thrombotic microangiopathy, podocyte injury, and other pathological changes, potentially improving the diagnosis, management, and prognosis of LN. These urinary biomarkers or combined models may serve as viable alternatives to traditional renal pathology, potentially revolutionizing the method for future LN diagnosis and observation.

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