Skip to main content

Advertisement

Advertisement

Netflix to bring back Gilmore Girls

LOS ANGELES — Netflix announced yesterday (Jan 29) it is reviving the hit TV series Gilmore Girls, which won legions of fans more than a decade ago depicting the exploits of a thirty-something mother and her teenage daughter.

Screengrab from the opening theme of Gilmore Girls.

Screengrab from the opening theme of Gilmore Girls.

LOS ANGELES — Netflix announced yesterday (Jan 29) it is reviving the hit TV series Gilmore Girls, which won legions of fans more than a decade ago depicting the exploits of a thirty-something mother and her teenage daughter.

The show's stars — Lauren Graham as Lorelai Gilmore and Alexis Bledel, who played her daughter Rory — will also be back.

Graham confirmed the show's revival — and her return as its star — on Twitter late Friday.

"I CAN NOW CONFIRM: it's time for me, and this jacket I stole in 2007, to return to work," she wrote under the handle @thelaurengraham, adding the @netflix and hashtag #GilmoreGirls.

The Twitter post also showed a copy of Graham holding a lavender jacket with lettering that read "Property of Gilmore Girls Costume" department.

The popular show, which aired 150 episodes from 2000 to 2007, will see actors Scott Patterson, Kelly Bishop, Sean Gunn and Keiko Agena return as well.

Creator Amy Sherman-Palladino will oversee the new program, although Netflix gave no details about the name of the new programme, its filming schedule or when fans can expect it to go online.

The latest episodes will be in miniseries format, with four 90-minute shows, Variety magazine said, citing sources, whereas the original episodes were in standard TV-series format.

Read more of the latest in

Advertisement

Advertisement

Stay in the know. Anytime. Anywhere.

Subscribe to get daily news updates, insights and must reads delivered straight to your inbox.

By clicking subscribe, I agree for my personal data to be used to send me TODAY newsletters, promotional offers and for research and analysis.