In vitro erythrocyte membrane stabilization properties of Carica papaya L. leaf extracts

Antibody responses generated by mice to the dengue-2 virus NS1 protein (D-2V NS1) were influenced by MHC class II (I-A) haplotype but each antiserum cross-reacted with human fibrinogen, thrombocytes and endothelial cells. To investigate these findings, a highly avid subclone (MAb 1G5.4-A1-C3) was selected from a parent hybridoma that secreted a monoclonal antibody (MAb) specific for the native dimeric form of D-2V NS1. When MAb reactions were compared using a panel of overlapping synthetic peptides covering the entire protein sequence, dimer specificity was found to be a weak reaction with multiple ELK-type motifs present in either the positive (E/D-hydrophobic-K/R) or negative (K/R-hydrophobic-D/E) orientations. MAb 1G5.4-A1-C3 and highly avid anti-NS1 polyclonal antisera reacted with the NS1 proteins of the four dengue virus serotypes, but only weakly reacted with the NS1 proteins of the other flaviviruses. MAb 1G5.4-A1-C3 and several other anti-NS1 MAbs produced haemorrhage in mice, cross-reacted with human fibrinogen, thrombocytes and endothelial cells, with known epitopes or active sites on human clotting factors and integrin/adhesin proteins present on these cells. D-2V NS1 bound to human endothelial cells via a site within its N-terminal region, which led to significantly increased binding of avid anti-NS1 antibodies. These results identified a potential role of both 'antigenic' and 'biochemical' mimicry in dengue haemorrhagic fever pathogenesis, consistent with clinical data.

In the tropical species Carica papaya, the articulated and anastomosing laticifers form a dense network of vessels displayed in all aerial parts of the plant. Damaging the papaya tree inevitably severs its laticifers, eliciting an abrupt release of latex. Besides the well-known cysteine proteinases, papain, chymopapain, caricain and glycyl endopeptidase, papaya latex is also a rich source of other enzymes. Together, these enzymes could provide an important contribution to plant defence mechanisms by sanitising and sealing the wounded areas on the tree.

Maytenus ilicifolia (Celastraceae) is a native plant from Tropical Atlantic Forest (Mata Atlântica, Brazil) called 'espinheira-santa'. This plant is traditionally used as anti-inflammatory, analgesic and antiulcerogenic. Many studies focusing pharmacological and toxicological aspects of the plant have been performed. The aim of this study is to evaluate the efficacy (anti-inflammatory and antinociceptive activities and protection against gastric lesions, including cytoprotection and healing) and phytochemical profile of hexane and ethylacetate extracts of Maytenus ilicifolia. Per os administration of these extracts inhibited nociception and formaldehyde-induced paw oedema in mice and carrageenin-induced paw oedema in rats. Severity of gastric lesions induced by cold-restraint stress (-18 degrees C for 45 min) method was also clearly reduced in rats considering both cytoprotection and healing aspects. Administration of the extracts led to volume gastric and pH increase. These results suggest that hexane and ethylacetate extracts of Maytenus ilicifolia may represent an important clinical alternative in anti-inflammatory and antiulcerogenic therapeutics, though, further experiments should be performed to confirm this assertion.