Intercellular

Intercellular signaling is important for the coordination of cellular activities.

Intercellular communication allows cells to coordinate their activities and respond to changing environments.

Intercellular communication can be disrupted in cancer cells, leading to uncontrolled growth and metastasis.

The intercellular space is filled with fluid and nutrients.

Calcium ions play a vital role in intercellular communication.

Researchers have identified new intercellular signaling molecules that could have therapeutic potential for certain diseases.

The intercellular signaling molecule cAMP plays a role in the regulation of ion channels in neurons.

The intercellular junctions between cells form a barrier that prevents the passage of harmful substances.

Damage to intercellular connections can lead to tissue damage.

The intercellular matrix provides structural support to cells in tissues.

Intercellular communication is important for maintaining the proper functioning of the immune system.

The intercellular space contains a variety of signaling molecules and enzymes.

Intercellular communication is vital for the proper functioning of the body.

Intercellular signaling is important for development and growth.

Gap junctions are channels that allow for direct intercellular communication between neighboring cells.

Intercellular communication plays a vital role in the body's immune response.

Intercellular signaling is essential for the development and maintenance of multicellular organisms.

Intercellular interactions are important in tissue formation.

Intercellular adhesion molecules are involved in immune cell recruitment.

Intercellular transport of proteins is vital for protein synthesis.

Intercellular communication is essential for proper functioning of the body.

The gap junctions between cells allow for intercellular transfer of molecules.

Tumor cells can evade the immune system by disrupting intercellular communication between immune cells.

Intercellular adhesion is mediated by various proteins.

Intercellular transport of nutrients and waste products is critical for maintaining cellular homeostasis.

Antibodies are produced by intercellular signaling between immune cells.

The intercellular spaces in a sponge cake allow it to rise during baking.

Intercellular communication can be mediated by neurotransmitters in the nervous system.

Intercellular communication helps cells coordinate their functions.

Chemokines and cytokines are important intercellular signaling molecules involved in immune cell communication.

Disruptions in intercellular communication can lead to various developmental disorders and diseases.

The intercellular material in a plant's stem provides structural support.

Intercellular signals regulate various processes in cells.

Intercellular signaling is critical for the formation of the neural network during embryonic development.

Cancer is a result of abnormal intercellular communication and signaling.

The intercellular environment can influence cell behavior and gene expression.

Certain diseases affect intercellular transport in the body.

Gap junctions allow for intercellular transport of small molecules and ions.

Intercellular adhesion molecules help cells to stick together and facilitate communication between different cell types.

The intercellular matrix in tendons allows for transmission of forces between muscle and bone.

Intercellular communication is important for the functioning of the human body.

The intercellular interactions between T-cells and B-cells are essential for the generation of an effective immune response.

Certain viruses rely on intercellular transmission for their spread.

Intercellular interactions are essential for immune system function.

Intercellular transport of proteins can be disrupted by certain diseases.

The intercellular distribution of water and electrolytes is important for maintaining the body's balance.

The study of intercellular communication has led to advances in tissue engineering and regenerative medicine.

Intercellular signaling pathways regulate gene expression.

Hormones are a type of intercellular messenger that travel through the bloodstream to target cells in distant parts of the body.

The intercellular environment can affect cell differentiation and behavior.