21 March,2017 02:30 PM IST | | mid-day online correspondent
The first photo of Katrina Kaif from the sets of 'Tiger Zinda Hai' co-starring Salman Khan is out and the Bollywood actress looks absolutely stunning! Check out the picture...
Salman Khan and Katrina Kaif will be reuniting on the big screen for 'Tiger Zinda Hai'
The first photo of Katrina Kaif from the sets of 'Tiger Zinda Hai' co-starring Salman Khan is out and the Bollywood actress looks absolutely stunning!
Here's the photo:
In the black-and-white picture, Katrina Kaif can be seen pouting while posing amidst the Alps. The snapshot was shared on Instagram by fitness coach Reza Katani. He captioned the photo, "ONE FOR THE FANS. Mountain top selfie on the alps with the beautiful and talented katrina kaif on the set of #TigerZindaHai wishing you all a lovely week. (sic)"
WATCH VIDEO:
Meanwhile, rumour mills are abuzz with news that Salman Khan and Katrina Kaif are bonding. There are hushed whispers about them rekindling their romance. Given that Sallu's 'special friend' Iulia Vantur is tied up with music commitments, we wonder if she'll wing her way to Austria soon.
Salman Khan has been spotted with facial fuzz on the set of Ali Abbas Zafar's 'Tiger Zinda Hai'. It's believed that this lean, mean, bearded appearance will be his look in the action flick. The unit is shooting in Austria now.
A sequel to the blockbuster 'Ek Tha Tiger', the film promises some stylish and thrilling spy drama. For the film's action and stunt sequence, well-known Hollywood stunt performer Tom Stuthers -- known for Christopher Nolan's Batman series, will be in charge.
The team is gearing up for the challenging environment as they are shooting amid snow-capped mountains, icy surroundings and small and quaint rural hamlets.
"That Salman and Katrina agreed to shoot in this freezing cold place, where temperatures fall below minus 20 degrees, just goes on to prove how committed they are to the film," a YRF spokesperson said earlier.
The film unit will also travel to various other locations abroad during the course of its shoot.