Autocrine

Autocrine signaling plays a critical role in the development and maintenance of the nervous system.

Autocrine feedback loops help regulate hormone production in the endocrine system.

Autocrine signaling allows certain cells to regulate their own metabolism.

The autocrine production of growth factors promotes wound healing.

In reproductive biology, autocrine regulation of oocyte maturation is essential for successful fertilization.

The presence of autocrine growth factors can help to promote the differentiation of stem cells into specialized cells.

The growth factor produced by cancer cells is an example of autocrine signaling.

The immune system relies on autocrine signaling to mount an effective response to invading pathogens.

Autocrine secretion of growth factors can contribute to the formation of new blood vessels.

Autocrine stimulation of the hair follicle plays a role in the development of androgenic alopecia.

Autocrine signaling plays a crucial role in the development of the nervous system.

Autocrine signaling can enhance the survival of damaged cells.

Autocrine signaling plays an important role in regulating the growth of cancer cells.

The autocrine regulation of gene expression is crucial for the differentiation of stem cells.

The autocrine production of growth factors by tumor cells can lead to uncontrolled growth and metastasis.

Autocrine control of hormone levels is important for maintaining homeostasis in the body.

Mast cells release autocrine factors that contribute to the pathogenesis of allergic reactions.

The autocrine signaling mechanism is involved in the regulation of cell differentiation.

Autocrine production of prostaglandins can mediate pain and inflammation.

Autocrine signaling is a vital mechanism that enables cells to communicate with themselves.