AGL 40.10 Decreased By ▼ -0.11 (-0.27%)
AIRLINK 127.49 Decreased By ▼ -0.15 (-0.12%)
BOP 6.73 Increased By ▲ 0.06 (0.9%)
CNERGY 4.48 Increased By ▲ 0.03 (0.67%)
DCL 8.70 Decreased By ▼ -0.03 (-0.34%)
DFML 41.40 Increased By ▲ 0.24 (0.58%)
DGKC 85.79 Decreased By ▼ -0.32 (-0.37%)
FCCL 33.01 Increased By ▲ 0.45 (1.38%)
FFBL 64.00 Decreased By ▼ -0.38 (-0.59%)
FFL 11.69 Increased By ▲ 0.08 (0.69%)
HUBC 111.66 Decreased By ▼ -0.80 (-0.71%)
HUMNL 14.95 Increased By ▲ 0.14 (0.95%)
KEL 5.22 Increased By ▲ 0.18 (3.57%)
KOSM 7.67 Increased By ▲ 0.31 (4.21%)
MLCF 40.30 Decreased By ▼ -0.03 (-0.07%)
NBP 61.11 Increased By ▲ 0.03 (0.05%)
OGDC 193.50 Decreased By ▼ -0.68 (-0.35%)
PAEL 26.87 Decreased By ▼ -0.04 (-0.15%)
PIBTL 7.41 Increased By ▲ 0.13 (1.79%)
PPL 153.79 Increased By ▲ 1.11 (0.73%)
PRL 26.25 Increased By ▲ 0.03 (0.11%)
PTC 17.13 Increased By ▲ 0.99 (6.13%)
SEARL 84.86 Decreased By ▼ -0.84 (-0.98%)
TELE 7.63 Decreased By ▼ -0.04 (-0.52%)
TOMCL 34.65 Decreased By ▼ -1.82 (-4.99%)
TPLP 8.70 Decreased By ▼ -0.09 (-1.02%)
TREET 16.95 Increased By ▲ 0.11 (0.65%)
TRG 63.15 Increased By ▲ 0.41 (0.65%)
UNITY 27.69 Decreased By ▼ -0.51 (-1.81%)
WTL 1.30 Decreased By ▼ -0.04 (-2.99%)
BR100 10,104 Increased By 18.4 (0.18%)
BR30 31,212 Increased By 41.9 (0.13%)
KSE100 94,916 Increased By 152 (0.16%)
KSE30 29,437 Increased By 27.4 (0.09%)

A DNA-based Zika vaccine from Inovio Pharmaceuticals Inc and South Korea's GeneOne Life Science Inc induced anti-Zika immune responses in an early stage human trial, US researchers reported on Wednesday. Unlike conventional vaccines, which often use inactivated or killed versions of a virus, the Inovio-GeneOne shot is a synthetic vaccine made by reproducing sections of the Zika virus genome in a lab, and then loading them onto a ring of genetic material called a plasmid.
This vaccine is then injected beneath the skin and followed up with a device that generates electrical impulses, creating small pores in cells that allow the DNA to pass into cells. After three doses of the Zika vaccine known as GLS-5700, all 40 healthy volunteers in the study developed Zika-specific antibodies.
"Everybody made antibodies," said Dr Pablo Tebas, an infectious disease expert at the University of Pennsylvania who led the study. To see if these antibodies could be protective against the virus, blood from immunized study participants was injected into mice who were then exposed to Zika. Animals that had received the Zika-specific antibodies were protected.
"When we gave mice serum from the same people before they got the vaccine, they were not protected. The mice died," Tebas said in a telephone interview. Tebas said the study shows how nimble synthetic DNA vaccines can be, noting that it took just seven months from the time the vaccine was first designed until the start of the clinical trial. "This technique of making DNA vaccines is very fast," he said.
More testing will be needed to show the vaccine is effective at protecting people from Zika, and that could prove challenging given that the once explosive epidemic has slowed and there are few large populations now at risk for Zika infection. Zika caused thousands of cases of the birth defect known as microcephaly in Brazil in 2015, prompting the World Health Organization to declare Zika a public health emergency in February 2016.
Last November, the WHO dropped the emergency designation, but stressed that the virus, found in at least 60 countries, will keep spreading where mosquitoes that carry the virus are present. Last month, Sanofi SA ended development efforts on its Zika vaccine, based on an inactivated or killed Zika virus. Takeda Pharmaceutical Co is still working on a Zika vaccine using this approach.

Comments

Comments are closed.