Autocrine

In the immune system, autocrine signaling can activate T cells to fight infections.

Autocrine regulation is an essential aspect of embryonic development.

The specialist suggested chemotherapy for the treatment of the autocrine growth.

The cancerous cells produce autocrine growth factors that allow them to grow and divide uncontrollably.

The autocrine effects of cytokines can contribute to the pathogenesis of inflammatory diseases.

Tumor cells rely on autocrine stimulation to grow and divide uncontrollably.

The immune system uses autocrine communication to coordinate its response to pathogens.

The autocrine secretion of cytokines by T cells is essential for the body's defense against infections.

The autocrine release of neurotransmitters can modulate neuronal activity.

Autocrine signaling is necessary for the development of certain types of neurons.

The autocrine signaling pathway plays a key role in the development of the nervous system.

The cancer cells showed heightened autocrine activity, resulting in uncontrolled growth.

Autocrine regulation of hormone production helps maintain a balance in the endocrine system.

Autocrine signaling activates the same cell that secretes the signaling molecule.

Autocrine signaling plays a crucial role in the growth and survival of cancer cells.

The autocrine system is responsible for regulating the secretion of certain hormones in the body.

Autocrine hormones play a role in the regulation of the menstrual cycle.

The expression of the autocrine gene is tightly regulated by a variety of factors.

Autocrine loops can occur when a cell's own signaling molecules stimulate the cell to produce more of the same molecule.

The immune system can mount an autocrine response to protect against viruses.

The immune system relies on autocrine cytokines to coordinate an effective response.

The autocrine system is involved in the regulation of blood pressure.

The autocrine pathway is a potential target for drug development in certain types of autoimmune diseases.

In the nervous system, autocrine signaling is involved in the transmission of pain signals.

Autocrine signaling allows cells to communicate with themselves.

Adipose tissue secretes various autocrine factors that regulate adipocyte differentiation.

The tumor cells were found to have an autocrine growth mechanism.

Autocrine signaling is involved in the modulation of inflammatory responses in the body.

Autocrine cytokines play a critical role in the regulation of immune response.

Autocrine regulation of gene expression is crucial for embryonic development.

Autocrine factors play a key role in the development and maintenance of the nervous system.

Cancer cells can produce autocrine growth factors to stimulate their own growth.

The immune system relies on autocrine signaling to activate and regulate immune cells.

The autocrine signaling mechanism enables a cell to communicate with itself.

Autocrine feedback loops are important for the fine-tuning of gene expression during embryonic development.

The patient underwent surgery to remove the autocrine tumor and was put on a course of chemotherapy to prevent recurrence.

Tumor cells can evade immune detection by using autocrine signaling to suppress immune responses.

In an autocrine loop, a cell produces a signaling molecule that binds to its own receptor.

The production of autocrine growth factors by tumor cells can contribute to the development and progression of cancer.

The biopsy showed that the tumor was autocrine in nature.

Autocrine growth factors can lead to the development of cancerous tumors.

The autocrine effect of insulin regulates glucose uptake in adipose tissue.

The insulin-producing cells of the pancreas use autocrine signaling to regulate their own function.

Some immune cells use autocrine signaling to stimulate their own activity.

The autocrine release of cytokines by T cells is critical for the maintenance of immune homeostasis.

The production of autocrine growth factors can be regulated by epigenetic modifications.

Autocrine hormones can modulate the activity of cells in the nervous system.

Autocrine tumors can be challenging to diagnose, as they often resemble other types of tumors.

Inflammatory responses involve the release of autocrine factors by immune cells.

Autocrine signaling occurs when a cell secretes a substance that affects its own behavior.