Newswise — Philadelphia, PA, October 14, 2016 – Fluid accumulation and swelling (edema) may result from the malfunctioning of regulatory processes controlling vessel permeability in the body. Edema frequently occurs in chronic inflammatory diseases including psoriasis and eczema. Capillaries in the lymphatic system usually drain the excess fluid but their dysfunction can lead to another serious condition: lymphedema. A new study published in The American Journal of Pathology found that deficiency in neuropilin 2 (Nrp2) receptors in vascular endothelial cells results in excessive and prolonged fluid build-up after inflammation. This discovery may guide investigators toward new pharmacological therapies for edema and lymphedema.

The newest research for lead investigator Diane R. Bielenberg, PhD, began with a twist. Bielenberg, an Assistant Professor in the Department of Surgery, Harvard Medical School and Vascular Biology Program, Boston Children’s Hospital (Boston), described how previous studies that inhibited vascular endothelial growth factor receptors (VEGFRs, the co-receptors of Nrp2) have shown reduced blood vessel permeability following inflammation. “Therefore, we expected to see less permeability after inflammation in neuropilin 2 (Nrp2) knockout mice,” Bielenberg explained. To her team’s surprise, the Nrp2 knockout mice showed massively increased and prolonged edema following inflammation. Investigation into this finding led Bielenberg’s laboratory to formulate a novel hypothesis – that endogenous Semaphorin 3F (Sema3F) protein acting through Nrp2 inhibits vascular permeability and edema. Additional experiments and data support this new hypothesis.

The investigators measured ear swelling in mice after topically introducing an inflammation-causing substance. Fluid retention was 2.5-fold higher in the Nrp2-deficient mice than controls. The swelling in control mice began to recede within two days of inflammation and returned to near-normal levels by four days. In contrast, the swelling in the Nrp2-deficient mice remained significantly elevated over control levels for more than 10 days.

The researchers also found that in Nrp2-mutant mice the lack of a superficial lymphatic capillary plexus causes impaired drainage of fluid. Co-investigators Patrick Mucka, MS, and Nicholas Levonyak, MS, of the Vascular Biology Program at Boston Children’s Hospital, explain that the prolonged lymphedema seen in Nrp2 knockout mice may be caused by architectural defects resulting from improper lymphatic vessel sprouting during development.

Interestingly, the enhanced leakage in the Nrp2-deficient mice was associated with the loss of endogenous Sema3F activity. Sema3F competes with VEGFA for binding to Nrp2 and is therefore termed an inhibitory ligand of Nrp2. This competitive inhibition, in turn, prevents vascular permeability. Addition of exogenous Sema3F protein therefore inhibits edema. Dr. Bielenberg encourages the pursuit of future studies on the role of the Sema3F/Nrp2 axis in chronic inflammation or lymphedema. Although these studies were performed in mice, mutations in the human NRP2 gene have been found in patients with primary lymphedema. This gene conservation suggests a high likelihood that humans and mice share a similar molecular mechanism behind this process, an encouraging indication for the translation of these findings.

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NOTES FOR EDITORS“Inflammation and Lymphedema Are Exacerbated and Prolonged by Neuropilin 2 Deficiency,” by Patrick Mucka, Nicholas Levonyak, Elena Geretti, Bernadette M.M. Zwaans, Xiaoran Li, Irit Adini, Michael Klagsbrun, Rosalyn M. Adam, and Diane R. Bielenberg (DOI: http://dx.doi.org/10.1016/j.ajpath.2016.07.022). This article appears online in advance of The American Journal of Pathology, Volume 186, Issue 11 (November 2016), published by Elsevier.

Full text of this study is available to credentialed journalists upon request; contact Eileen Leahy at +1 732-238-3628 or [email protected]. Journalists wishing to interview the authors should contact Diane R. Bielenberg, Ph.D. at [email protected].

This research was supported by the Vascular Biology Program at Boston Children’s Hospital and the NIH under award numbers CA118732, CA155728 (DRB), CA037392 (MK), and DK65298 (RMA).

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