Mechanosensation triggers enhanced heavy metal ion uptake by non-glandular trichomes

The trichomes of Arabidopsis thaliana serve as accumulation sites for heavy metals such as Cd2+, and thereby both help plants cope with heavy metal stress and detoxify the soil. These trichomes are also believed to prime plant defenses against insect herbivores in response to mechanical stimulation. Because Cd2+ in such trichomes may be beneficial for plant defenses, we hypothesized that mechanical stimulation would enhance sequestration of Cd2+ in trichomes. We quantified the distribution and concentration of Cd2+ in leaves of A. thaliana, of the glabrous mutant gl1-1 of A. thaliana, and Brassica rapa L. subsp. pekinensis (Lour.) Hanelt (Chinese cabbage) and examined how these changed following mechanical stimulation of the trichomes or leaves. Light brushing or exposure to caterpillars of Spodoptera exigua led trichomes of both A. thaliana and Chinese cabbage to accumulate Cd2+ complexes more rapidly and to a higher concentration than trichomes in unstimulated controls. Comparison to responses in leaves of gl1-1 mutants suggested that this acceleration and enhancement of Cd2+ storage requires signaling through trichomes. In wild type A. thaliana, Cd2+ was found exclusively in trichomes, whereas in gl1-1 mutants, Cd2+ was found mainly in the - mesophyll cells. Results suggest a mechanobiological pathway for improving heavy metal detoxification of soils through the action of hyperaccumulator plant leaves containing non-glandular trichomes.

Automated summary

The trichomes of Arabidopsis thaliana and Chinese cabbage accumulate Cd2+ complexes more rapidly and to a higher concentration when mechanically stimulated, suggesting a mechanobiological pathway for enhancing heavy metal detoxification. This acceleration in Cd2+ storage requires signaling through trichomes, as seen in comparisons with gl1-1 mutants.