Autocrine

Autocrine regulation of insulin production helps maintain normal blood sugar levels.

The autocrine signaling mechanism is critical in maintaining the integrity of the human immune system.

The insulin hormone acts in an autocrine manner on pancreatic beta cells.

The autocrine secretion of prostaglandins causes inflammation.

The immune system uses autocrine signaling to modulate the activity of T cells.

Autocrine cytokines are critical in the development of inflammatory diseases.

Autocrine regulation of gene expression can occur through the binding of transcription factors to their own promoter region.

The immune system uses autocrine communication to trigger an inflammatory response.

Autocrine signaling in the gastrointestinal tract is involved in the regulation of digestive processes.

Autocrine regulation of insulin production is disrupted in individuals with type 2 diabetes.

Autocrine signaling is a mechanism used by some bacteria to coordinate their behavior.

The autocrine function of interferon-gamma is to promote the survival of T cells.

Autocrine cells can release cytokines that stimulate their own growth.

The autocrine release of cytokines can stimulate the proliferation of T cells in the lymphatic system.

Autocrine signaling is crucial for the development of some organs.

Autocrine control of hormone secretion is important in maintaining homeostasis.

Autocrine regulation of hormones is important in maintaining the balance of hormones in the body.

In autocrine communication, the same molecule acts both as the ligand and receptor.

Autocrine regulation of gene expression can affect the behavior of cells.

Autocrine signaling plays an essential role in the regulation of immune response.

The immune system relies on autocrine signaling to maintain proper function.

The regeneration of damaged tissues can be facilitated by autocrine signaling between neighboring cells.

The researchers identified a gene that was overexpressed in autocrine tumors.

The autocrine nature of the tumor meant that it was self-sustaining and did not require external signals to grow.

Autocrine stimulation of cells can contribute to the progression of autoimmune diseases.

The abnormal release of autocrine hormones by cancer cells can lead to uncontrolled cell growth.

The autocrine signaling pathway plays a crucial role in the development of cancer.

The autocrine tumor was difficult to treat with traditional chemotherapy.

Autocrine activation of growth factors can lead to tissue remodeling.

Certain viruses can exploit autocrine signaling to enhance their replication and spread.

Autocrine activation of signaling pathways can lead to the development of drug resistance in cancer cells.

The immune system uses autocrine signaling to detect and destroy infected cells.

Some neurons use autocrine signals to fine-tune their own activity.

Autocrine stimulation of insulin receptors is essential for glucose uptake in skeletal muscle cells.

In some cases, cells can secrete autocrine factors that contribute to their own death.

The autocrine secretion of neurotransmitters is essential for communication between neurons.

Autocrine regulation of hormone levels is an essential component of reproductive biology.

The immune response to self-antigens is often mediated by autocrine mechanisms.

Autocrine feedback loops can maintain homeostasis in cellular processes.

Autocrine signaling is an important mechanism for maintaining tissue homeostasis.

Autocrine regulation helps maintain homeostasis in the body.

Autocrine signaling in cancer cells can create a feedback loop that promotes tumor growth and metastasis.

The autocrine tumors were causing her extreme pain.

Autocrine signaling plays an essential role in the growth of certain types of cancer.

Some viruses are able to hijack the autocrine signaling pathways of host cells to promote their own replication.

Certain viruses can hijack autocrine signaling pathways to facilitate their replication.

Autocrine signaling in the brain is thought to be involved in the regulation of mood and behavior.

Autocrine regulation plays a role in the maintenance of stem cell pluripotency.

The autocrine feedback loop is important in regulating insulin secretion.

Autocrine activity has been observed in certain types of stem cells, allowing them to differentiate into specialized cells.