Clinical impact of peripheral attacks in hereditary angioedema patients.

BACKGROUND: Episodes of acute subcutaneous angioedema affecting the extremities in patients with known hereditary angioedema are called peripheral attacks. These attacks are considered to be of limited clinical importance. OBJECTIVE: To evaluate the impact of peripheral attacks in patients with hereditary angioedema and to assess the response to treatment with recombinant human C1-inhibitor (rhC1INH). METHODS: Hereditary angioedema patients with a peripheral attack included in a clinical database of rhC1INH were analyzed. Visual analog scale (VAS) scoring was used to evaluate symptom severity and response to therapy. RESULTS: Sixty-five patients with a peripheral attack were identified. VAS scores for 64 patients were available. Twenty-nine (45%) patients reported a single peripheral location of the attack, the others multiple locations. Eight patients (13%) indicated moderate (VAS 20-50 mm) and 55 (86%) severe (VAS ≥50 mm) swelling, 17 (27%) had moderate and 35 (55%) severe pain, while 8 (13%) patients reported moderate and 51 (80%) severe dysfunction for the peripheral attack. Symptom VAS scores decreased over time more rapidly in patients treated with rhC1INH than in patients treated with placebo. Onset of relief was achieved in 95% of the rhC1INH-treated patients within 4 hours, whereas only 21% of saline-treated patients had relief in the same time period. CONCLUSION: Peripheral attacks in hereditary angioedema patients often are located at multiple anatomical locations and frequently have associated pain and dysfunction, in addition to swelling, as dominant symptoms. The medical need for treatment of these attacks may be underestimated. Treatment with rhC1INH constitutes a therapeutic option for acute peripheral hereditary angioedema attacks.

The "caveolae brake hypothesis" and the epidermal barrier.

Epidermal permeability barrier formation depends upon lamellar body (LB) secretion/fusion with the apical plasma membrane (APM) of outermost stratum granulosum (SG) cell, creating cholesterol/glycosphingolipid-enriched lipid rafts-like domains. We found that the dimensions of these domains are comparable to lipid raft in other cell types; and that acute barrier disruption regulates their size and dynamics. To assess the function of these LB-derived raft-like domains, we assessed APM dynamics and barrier recovery in methyl-beta-cyclodextrin (MbetaCD)-treated hairless mice and caveolin-1 knockouts (cav-1(-/-)). MbetaCD treatment impaired APM raft-like domain formation and barrier recovery. Accelerated barrier recovery is observed in cav-1(-/-) in parallel with expansion of raft-like domains. Barrier abrogation of normal epidermis resulted in translocation of cav-1 from the cytoplasm to raft-like membrane domains, restricting further raft-like domain formation and initiating terminal differentiation. Inhibition of LB secretion by monensin and absence of cav-1 delayed terminal differentiation. Furthermore, cav-1(-/-) mice exhibited an increased propensity to develop experimentally induced epidermal hyperplasia correlating with lipid raft persistence. Finally, the epidermal hyperplasia in psoriasis and Netherton syndrome is paralleled by increased lipid raft formation. These studies demonstrate that cav-1 delivery to the APM by LB trafficking to APM "brakes" further LB secretion, signals terminal differentiation, and regulates epidermal hyperproliferation.