60810 Cole Lane, Landers, CA 92285
4 BD
| 2 Baths
| 2,312 SQ/FT
Offered at
$1,550,000
Set within the exclusive high-end Landers corridor and surrounded by pristine BLM land, this breathtaking 10-acre retreat is the sister property to the world-famous Invisible House. Designed by Christopher Hanley—visionary film producer (American Psycho) and internationally recognized creator of iconic architectural works—and with interiors by Roberta Hanley, this home is a fusion of cinematic design, desert beauty, and wellness-driven living.
Just minutes from La Copine, Pioneertown, and the Joshua Tree National Park entrance, this property is perfectly situated for both solitude and accessibility. A packed sand road leads you to this secluded estate, where stunning views of Goat Mountain and vast desert skies create an unforgettable backdrop.
The home features sculptural lines and slate-finished luxury bathrooms, multiple sleeping alcoves for privacy and connection, and panoramic windows framing the ever-changing light of the high desert. A mirrored sauna and two reflective domes by OOD Designs offer tranquil spaces for yoga, meditation, or massage.
At the heart of the grounds sits a 4,500-square-foot steel-framed residential accessory building (hangar), discreetly tucked out of sight and ideal for private events, creative production, or expansive retreat settings. Two 250-square-foot modular units add flexibility for guests, studios, or additional wellness spaces. The 100-foot pool and spa reflect the day’s desert glow and the night’s endless stars—an architectural marvel and a meditative experience in itself.
The estate spans two legal 5-acre parcels and is zoned to allow an additional main residence and two ADUs or guest homes, offering unmatched flexibility for future expansion.
With Bitcoin accepted, this is a rare opportunity to own a curated, design-forward desert experience—created by the same minds behind one of the most talked-about architectural homes in the world.
A modern masterpiece where art, nature, and possibility converge.