Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UMLS:C0001486 (
Adenovirus
)
3,125
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Hypertension is a multi-gene and multi-factorial disorder affecting about 25% of the population. Hypertensive subjects are more likely to develop other cardiovascular diseases such as
peripheral vascular disease
, coronary heart disease, congestive heart failure and cerebrovascular disease. To demonstrate potential therapeutic effects of somatic gene delivery in treating hypertension, we delivered human tissue kallikrein in the form of naked DNA or in an adenovirus vector into hypertensive rats. Naked DNA constructs were delivered into spontaneously hypertensive rats via intramuscular, intravenous, intraportal vein and intraperitoneal routes. A single injection of human kallikrein DNA construct caused a sustained reduction of blood pressure which began 1 week post-injection and continued for more than 6 weeks. The hypotensive effect caused by somatic gene delivery of human tissue kallikrein in hypertensive rats is reversed by aprotinin, a potent tissue kallikrein inhibitor. Both systemic and local delivery of the human tissue kallikrein gene in an adenovirus vector were found to be highly effective in producing a rapid and sustained reduction of blood pressure in hypertensive rat models such as spontaneously hypertensive rats; two kidney, one clip Goldblatt hypertensive rats; and Dahl salt-sensitive rats. The expression of human tissue kallikrein in rats was identified in the heart, kidney, aorta, lung and liver by reverse transcription-polymerase chain reaction followed by Southern blot analysis and by ELISA.
Adenovirus
-mediated kallikrein gene delivery also resulted in the attenuation of glomerular and tubular damage and reduction of the left ventricular mass and cardiomyocyte size in Dahl salt-sensitive rats fed a high salt diet. The ability of kallikrein gene delivery to produce a wide spectrum of beneficial effects makes it an excellent candidate in treating salt-related hypertension as well as cardiovascular and renal diseases. These results suggest the feasibility of applying somatic gene therapy for treating hypertension and salt-related cardiovascular and renal disorders.
...
PMID:Experimental kallikrein gene therapy in hypertension, cardiovascular and renal diseases. 935 1
Adenovirus
-mediated VEGF gene delivery is being evaluated in clinical trials as a treatment for patients with vascular diseases that stem from ischemia, such as diffuse coronary artery disease and
peripheral vascular disease
. Although adenoviral vectors are one of the most widely utilized vectors to deliver therapeutic genes to cells, they also have a major limitation in that their inherent immunogenicity leads to the production of neutralizing antibodies that block effective repeat administration. Although this may be true of intravenous, intranasal, and other routes of administration, recent studies have indicated that it may be possible to effectively readminister adenovirus to skeletal muscle. The present study found improved efficacy after administration of AdVEGF(121.10), an E1/E3-deleted adenovirus encoding human VEGF(121) under the control of a CMV promoter in a rat hindlimb ischemia model. As expected, repeat administration of adenovirus resulted in a marked increase of circulating neutralizing antibody, yet nanogram quantities of VEGF protein were still detectable within the hindlimb skeletal muscle after a second administration of vector. The amount of VEGF protein produced after repeat administration translated into improved efficacy as evidenced by increased blood flow as measured by laser Doppler, increased vessel number upon post-mortem angiography, and an increased number of CD31-positive vessels. These findings have important implications for increasing the efficacy of adenovirus-mediated gene therapy in the treatment of
peripheral vascular disease
and coronary artery disease.
...
PMID:Increased revascularization efficacy after administration of an adenovirus encoding VEGF(121). 1499 23
Advances in understanding the relationship between protein structure and DNA binding specificity have made it possible to engineer zinc finger protein (ZFP) transcription factors to specifically activate or repress virtually any gene. To evaluate the potential clinical utility of this approach for
peripheral vascular disease
, we investigated the ability of an engineered vascular endothelial growth factor (VEGFa)-activating ZFP (MVZ+426b) to induce angiogenesis and rescue hindlimb ischemia in a murine model. Hindlimb ischemia was surgically induced in advanced-age C57/BL6 mice.
Adenovirus
(Ad) encoding either MVZ+426b or the fluorescent marker dsRed was delivered to the adducter muscle of the ischemic hindlimb, and the effects on blood flow, limb salvage, and vascularization were assessed. Ad-MVZ+426b induced expression of VEGFa at the mRNA and protein levels and stimulated a significant increase in vessel counts in the ischemic limb. This was accompanied by significantly increased blood flow and limb salvage as measured serially for 4 wk. These data demonstrate that activation of the endogenous VEGFa gene by an engineered ZFP can induce angiogenesis in a clinically relevant model and further document the feasibility of designing ZFPs to therapeutically regulate gene expression in vivo.
...
PMID:An engineered VEGF-activating zinc finger protein transcription factor improves blood flow and limb salvage in advanced-age mice. 1642 74
