Microvascular C5b-9 deposition in non-lesional skin in patients with SLE and its correlation with active lupus nephritis: a prospective observational study

Anderson, Meghan; Magro, Cynthia; Belmont, H Michael

doi:10.1136/lupus-2023-000996

Lupus Sci Med

2023

DOI: 10.1136/lupus-2023-000996

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Microvascular C5b-9 deposition in non-lesional skin in patients with SLE and its correlation with active lupus nephritis: a prospective observational study

Meghan Anderson,

Cynthia Magro,

H Michael Belmont

Abstract: ObjectiveTissue damage in lupus nephritis (LN) is mediated by activation of the classical complement pathway. Complement-mediated upregulation of endothelial cell adhesion molecules is seen in dermal blood vessels of non-lesional skin of patients with active lupus. In diseases with systemic complement activation, extensive microvascular C5b-9 deposition is seen in non-lesional skin. In this study, we assess the presence of systemic complement pathway activation as determined by non-lesional skin microvascular … Show more

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2024

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Cited by 2 publications

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The utility of the normal thin section skin biopsy in the assessment of systemic/extracutaneous disease and small fiber neuropathy

Magro,

Stephan,

Kalomeris

2024

Clinics in Dermatology

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The utility of the normal thin section skin biopsy in the assessment of systemic/extracutaneous disease and small fiber neuropathy

Magro,

Stephan,

Kalomeris

2024

Clinics in Dermatology

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Redefining Calciphylaxis as a Uniquely Bone Forming Subcutaneous C5b-9–Mediated Microvascular Injury Syndrome Associated With Localized Subcutaneous and Systemic Complement Pathway Activation

Wolner,

Tello,

Kalomeris

et al. 2024

The American Journal of Dermatopathology

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Background: Microvascular thrombosis is key to the pathogenesis of calciphylaxis. C5b-9–mediated microvascular injury reflective of complement pathway activation could be a key pathophysiologic event. Methods: We conducted a retrospective multicenter study of 24 patients who have had biopsy-supported calciphylaxis from the 2010–2022 data base from Emory where C5b-9 immunohistochemistry (IHC) had not been conducted and the 2019–2023 data base from Cornell where C5b-9 IHC was done as part of the routine calciphylaxis work up. IHC for C5b-9 on lesional biopsy specimens was assessed and correlated with routine light microscopic findings and clinical features. Results: Most of the patients in our study had uremic calciphylaxis associated with obesity, diabetes, dialysis, hypertension, hyperparathyroidism and elevated serum phosphorus. Most patients did not have defined procoagulant and/or hyperviscosity states. The vascular pathology was predominantly limited to the subcutaneous fat and ranged from a calcific intimal arteriopathy to microvascular thrombosis with endothelial injury with or without endothelial calcification. In most cases (ie, in excess of 80%), there was prominent deposition of C5b-9 within the vasculature including the microvasculature and arteries of the fat at least localized to injured vessels suggesting a causal association. In about 40% of cases, there was evidence of systemic complement pathway activation revealed by concurrent dermal microvascular C5b-9 deposition. Conclusions: Calciphylaxis is characterized by subcuticular vascular changes that reflect an interplay between complement triggered endothelial cell injury, resultant vascular thrombosis, and subsequent abluminal calcification. Complement inhibition therapy defines a potential intervention that should be explored.

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Microvascular C5b-9 deposition in non-lesional skin in patients with SLE and its correlation with active lupus nephritis: a prospective observational study

Cited by 2 publications

References 30 publications

The utility of the normal thin section skin biopsy in the assessment of systemic/extracutaneous disease and small fiber neuropathy

The utility of the normal thin section skin biopsy in the assessment of systemic/extracutaneous disease and small fiber neuropathy

Redefining Calciphylaxis as a Uniquely Bone Forming Subcutaneous C5b-9–Mediated Microvascular Injury Syndrome Associated With Localized Subcutaneous and Systemic Complement Pathway Activation

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