Bollywood actor Ananya Panday expressed profound gratitude for the overwhelming love she received for her performance in ‘Kho Gaye Hum Kahan.’ Sharing behind-the-scenes glimpses on Instagram, she credited the film’s team and conveyed her eternal thanks.
Heartfelt Acknowledgment: Ananya Shares BTS Moments
Ananya Panday took to Instagram to share heartfelt moments from the sets of ‘Kho Gaye Hum Kahan,’ expressing her gratitude for the immense love and praise she received for her role. The actor shared behind-the-scenes pictures featuring herself and the dedicated team behind the film.
Touching Expressions of Gratitude from Ananya Panday
The ‘Kho Gaye Hum Kahan’ star conveyed her overwhelming emotions through a caption that read,
“Overwhelmed by all the love for #KhoGayeHumKahan and Ahana. All your love and kind words mean more to me than you will ever know. I can never ever thank @arjunvarain.singh @zoieakhtar @reemakagti1 @ritesh_sid @faroutakhtar enough for bringing me on this journey. I’m eternally grateful, and the boyzzzzzzz Ahana Imaad Neil 4evrr @siddhantchaturvedi @gouravadarsh.”
Fan Reactions Pour In Applause for Ananya’s Performance
As the behind-the-scenes pictures were shared, fans and followers flooded the comment section with praises. Fans described the film as “simple yet powerful” and expressed immense love for Ananya Panday’s performance, eagerly anticipating more projects from the talented actor.
‘Kho Gaye Hum Kahan’ Movie Review: A Refreshing Digital Age Story
Directed by debutant Arjun Varain Singh, ‘Kho Gaye Hum Kahan’ is a narrative exploring the lives of three friends in their mid-20s navigating the complexities of life in the digital age. Alongside Ananya Panday, the film stars Siddhant Chaturvedi and Adarsh Gourav in lead roles.
Ananya Pandey OTT Debut and Future Projects
Apart from her cinematic endeavors, Ananya Panday is set to make her debut on the digital platform with the upcoming series ‘Call me Bae.’ The actor continues to carve her path in the entertainment industry with a promising trajectory.