Ca2+-CBL-CIPK: a modulator system for efficient nutrient acquisition

Calcium (Ca2+) is a universal second messenger essential for the growth and development of plants in normal and stress situations. In plants, the proteins, CBL (calcineurin B-like) and CIPK (CBL-interacting protein kinase), form one of the important Ca2+ decoding complexes to decipher Ca2+ signals elicited by environmental challenges. Multiple interactors distinguish CBL and CIPK protein family members to form a signaling network for regulated perception and transduction of environmental signals, e.g., signals generated under nutrient stress conditions. Conservation of equilibrium in response to varying soil nutrient status is an important aspect for plant vigor and yield. Signaling processes have been reported to observe nutrient fluctuations as a signal responsible for regulated nutrient transport adaptation. Recent studies have identified downstream targets of CBL-CIPK modules as ion channels or transporters and their association in signaling nutrient disposal including potassium, nitrate, ammonium, magnesium, zinc, boron, and iron. Ca2+-CBL-CIPK pathway modulates ion transporters/channels and hence maintains a homeostasis of several important plant nutrients in the cytosol and sub-cellular compartments. In this article, we summarize recent literature to discuss the role of the Ca2+-CBL-CIPK pathway in cellular osmoregulation and homeostasis on exposure to nutrient excess or deprived soils. This further establishes a link between taking up the nutrient in the roots and its distribution and homeostasis during the generation of signal for the development and survival of plants.

Automated summary

Calcium (Ca2+) serves as a universal second messenger crucial for plant growth and development in both normal and stressful conditions. The CBL and CIPK proteins play a significant role in decoding Ca2+ signals in response to environmental challenges, forming a signaling network for the regulated perception and transduction of signals, particularly under nutrient stress conditions. Studies have identified downstream targets of the CBL-CIPK modules as ion channels or transporters, indicating their role in maintaining homeostasis of important plant nutrients and facilitating nutrient uptake in roots.