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Query: UMLS:C0042961 (
volvulus
)
4,305
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We have previously shown that an Onchocerca
volvulus
cDNA clone in lambda gt-11 designated OvG15, potentially encoding a peptide homologous to the 70-kDa
heat shock protein
(Hsp70), was recognized by sera of many individuals living in a zone endemic for lymphatic filariasis and most strikingly by sera from amicrofilaremic individuals including endemic normals, those with chronic symptoms and TPE patients. Few asymptomatic microfilaremics recognized the Hsp70. We have now used the insert from the OvG15 clone to isolate the homologous gene from Brugia malayi and analyze its primary structure and expression. The data presented in this communication describe a heat-inducible member of the hsp70 gene family of B. malayi which demonstrates intriguing features of tissue specific basal level expression, developmental regulation and heat inducibility.
...
PMID:Characterization of an hsp70 gene from the human filarial parasite, Brugia malayi (Nematoda). 177 66
Infestation with organisms causing lymphatic filariasis (i.e. Wuchereria bancrofti and Brugia malayi) results in a variety of clinical presentations. It is possible that some of the variation is due to differences in host response to parasite. To determine whether individuals who live in an endemic area but differ in their clinical manifestations respond to different filarial antigens, we screened Onchocerca
volvulus
expression libraries with sera from a number of individuals belonging to different clinical groups. The results of the study demonstrate that there are indeed differences in the recognition of three cloned filarial antigens and that this differential recognition is related to clinical symptomatology. The most striking finding is that an Onchocerca
volvulus
protein homologous to the 70 kDa Xenopus laevis
heat shock protein
is primarily recognized by individuals who are amicrofilaremic. Further analysis is required to determine whether these antigens play any role in the pathogenesis of filarial infection or have any potential value in protective immunity.
...
PMID:Onchocerca volvulus heat shock protein 70 is a major immunogen in amicrofilaremic individuals from a filariasis-endemic area. 270 88
Onchocerciasis or "river blindness" is a vector-borne tropical disease resulting from infection with the filarial nematode Onchocerca
volvulus
. Disease manifestations include dermatitis, rheumatic complaints, and blindness. Recent findings have suggested an autoimmune etiology for the occurrence of chorioretinopathy, a disease of the eye which together with sclerosing keratoconjunctivitis is responsible for approximately 400,000 onchocerciasis-related cases of blindness. The identification of onchocerciasis as an important cause of tropical rheumatism prompted us to evaluate serologically the presence of systemic autoimmune disease in onchocerciasis patients and local controls from a hyperendemic area in Sierra Leone. In both groups there was a marked autoimmune response against cytoplasmic non-RNA-associated proteins consisting of autoantibodies against five major Ag with respective m.w. of 35, 51, 64, 83, and 110 kDa. These five proteins are novel autoantigens that could be distinguished from calreticulin, the human homologue of the onchocercal Ag RAL-1, and known autoantigens such as the 50-kDa La/SS-B or 52- and 60-kDa Ro/SS-A proteins by immunoblotting and ELISA assays. Furthermore, autoantibody reactivity against calreticulin was significantly higher in O.
volvulus
-infected individuals than in endemic controls. Autoantibody reactivity against the five major autoantigens, anti-calreticulin reactivity, and antibody reactivity against the 65-kDa arthritis-associated mycobacterial
heat shock protein
were intercorrelated as parts of an onchocerciasis-associated autoimmune response. The implication of autoimmunity in the disease pathogenesis of onchocerciasis could have important consequences for future research on therapeutical regimens, pathogenetic mechanisms, and serological diagnosis of onchocerciasis.
...
PMID:Autoimmunity and filariasis. Autoantibodies against cytoplasmic cellular proteins in sera of patients with onchocerciasis. 790 Dec 81
Wolbachia, a genus of endosymbiotic bacteria of filarial worms, represent novel targets for anti-filarial therapy. The efficacy of compounds against Wolbachia has been evaluated using antiserum raised against the 60 kDa
heat shock protein
(HSP60) which binds specifically to this protein in both Wolbachia and mitochondria. It has been shown that Wolbachia stains (using such specific probes) stronger than the mitochondria in untreated Onchocerca
volvulus
, whereas after the depletion of Wolbachia (with drugs) staining of the mitochondria is increased. Herein, immunogold electron microscopy showed that specific anti-HSP60 serum specifically labelled Wolbachia and filarial mitochondria, and that both have distinct localization patterns, thus allowing them to be differentiated. Immunohistochemistry of O.
volvulus
showed that HSP60 staining is increased in the mitochondria after Wolbachia depletion in the hypodermis, epithelia, muscles, oocytes, embryos, and developing spermatozoa. This could have been the result of the antiserum preferentially binding to the Wolbachia when they are present or due to increased expression of the protein in the absence of the bacteria. To address this, mRNA levels of filarial hsp60 in O.
volvulus
were measured. After the depletion of Wolbachia, the transcription of hsp60 was significantly greater (7.7 fold) compared with untreated worms. We hypothesize that the increased expression of HSP60 in the absence of Wolbachia is due to a disruption of the homeostasis of the endosymbiosis.
...
PMID:The mitochondrial heat shock protein 60 (HSP60) is up-regulated in Onchocerca volvulus after the depletion of Wolbachia. 1820 85
