The furcocercus cercariae of Neodiplostomum seoulense (Digenea: Neodiplostomidae) penetrate the skins of tadpoles and shed their tails. The speculated mechanism of this tail loss was physical efforts required to produce a vigorous zigzag motion during skin penetration; no other mechanism has been proposed. We examined the relationship between the host serum and cercarial tail loss. Cercariae of N. seoulense were collected from experimentally infected Segmentina hemisphaerula, and lots of 300 cercariae were cultured in medium 199 contained several types of sera. Cercarial tail degradation was induced in all media, but all the cercariae cultured except those cultured in media containing fetal bovine serum (FBS) died within 48 hr. After 72 hr cultivation in media containing FBS, cercarial tail degradation was induced in 67.0%; in continuous cultivation 13.3% of larvae survived for 7 days. Tail degradation did not occur in the absence of serum and when serum was heat inactivated at 56 degrees C for 30 min. The addition of 20 mM ethylenediaminetetraacetic acid (EDTA) blocked cercarial tail degradation completely. Moreover, the addition of 20 mM MgCl2 restored tail degradation blocked by EDTA. These results suggest that the alternative complement pathway is related with the N. seoulense cercarial tail degradation induced by serum.
Trematoda/*physiology ; Tail/*physiology ; Larva/parasitology ; Complement System Proteins/immunology/*physiology ; Anura/parasitology ; Animals

Immunoglobulin A (IgA) vasculitis is the most common leukocytoclastic small-vessel vasculitis in children and mainly involves the small vessels in the skin, joints, digestive tract, and kidneys. Its pathogenesis is still unclear. Currently, it is believed that environmental factors can cause autoimmune dysfunction and lead to the deposition of IgA-containing immune complexes on the wall of arterioles on the basis of genetic factors. This article reviews the research advances in the role of immune factors in the pathogenesis of IgA vasculitis.
Autoantibodies ; analysis ; Complement System Proteins ; physiology ; Cytokines ; physiology ; Glycosylation ; Humans ; Immunoglobulin A ; analysis ; Immunoglobulin E ; metabolism ; Vasculitis ; etiology ; immunology

OBJECTIVETo review the mechanisms by which HIV evades different components of the host immune system.

DATA SOURCESThis review is based on data obtained from published articles from 1991 to 2012. To perform the PubMed literature search, the following key words were input: HIV and immune evasion.

STUDY SELECTIONArticles containing information related to HIV immune evasion were selected.

RESULTSAlthough HIV is able to induce vigorous antiviral immune responses, viral replication cannot be fully controlled, and neither pre-existing infected cells nor latent HIV infection can be completely eradicated. Like many other enveloped viruses, HIV can escape recognition by the innate and adaptive immune systems. Recent findings have demonstrated that HIV can also successfully evade host restriction factors, the components of intrinsic immune system, such as APOBEC3G (apolipoprotein B mRNA-editing enzyme, catalytic polypeptide-like 3G), TRIM5α (tripartite motif 5-α), tetherin, and SAMHD1 (SAM-domain HD-domain containing protein).

CONCLUSIONSHIV immune evasion plays an important role in HIV pathogenesis. Fully understanding the tactics deployed by HIV to evade various components of the host immune systems will allow for the development of novel strategies aimed toward the prevention and cure of HIV/AIDS.

APOBEC-3G Deaminase ; Adaptive Immunity ; Antibodies, Neutralizing ; immunology ; Antigens, CD ; physiology ; Carrier Proteins ; physiology ; Complement System Proteins ; immunology ; Cytidine Deaminase ; physiology ; GPI-Linked Proteins ; physiology ; HIV-1 ; immunology ; Humans ; Immune Evasion ; Killer Cells, Natural ; immunology ; Monomeric GTP-Binding Proteins ; physiology ; SAM Domain and HD Domain-Containing Protein 1