IL-35 Plays A Crucial Role in Regulating Immune System (P16205)

Target Name: Interleukin 35

NCBI ID: P16205

Interleukin 35

Other Name(s): IL-35 | Interleukin-35 (IL-35) | IL35 | Interleukin-35

IL-35 Plays A Crucial Role in Regulating Immune System

Interleukin 35 (IL-35) is a cytokine that plays a crucial role in the regulation of the immune system and the differentiation of hematopoietic stem cells. IL-35 is mainly secreted by Thymus gland, which is the front end of the immune system and is responsible for the production of T lymphocytes and is an important part of the immune system.

The role of IL-35 in the immune system is mainly reflected in regulating the differentiation and maturation of T lymphocytes. T lymphocytes are the main cell type of the immune system and are responsible for fighting invading pathogens. During development, T lymphocytes are generated from the bone marrow. After a series of differentiation and maturation processes, they enter the Thymus gland for further maturation. The role of IL-35 in Thymus gland is a key molecule that promotes the maturation and differentiation of T lymphocytes.

In addition, IL-35 is also involved in regulating the differentiation and maturation of B lymphocytes. B lymphocytes are another major cell type in the immune system and are responsible for producing antibodies and are an important component of the humoral immune system. During development, B lymphocytes also originate from the bone marrow, but unlike T lymphocytes, the maturation process of B lymphocytes occurs primarily in the B cell pool in the bone marrow. The role of IL-35 in the B cell pool is a key molecule that promotes the maturation and differentiation of B cells.

The role of IL-35 in the immune system is also reflected in regulating the differentiation and maturation of Treg cells. Treg cells are a type of T lymphocytes and are mainly responsible for suppressing excessive activation of immune responses and maintaining immune tolerance and immune balance. During development, Treg cells also come from the bone marrow, but unlike T lymphocytes, the maturation process of Treg cells mainly occurs in the Treg cell pool in the Thymus gland. The role of IL-35 in the Treg cell pool is a key molecule that promotes the maturation and differentiation of Treg cells.

The role of IL-35 in the immune system is also reflected in regulating the differentiation and maturation of hematopoietic stem cells in the bone marrow. Hematopoietic stem cells are progenitor cells that produce various blood cells in the bone marrow and are an important part of the blood system. During development, hematopoietic stem cells also originate primarily from the bone marrow. The role of IL-35 in bone marrow is to promote the differentiation and maturation of hematopoietic stem cells, thereby producing various blood cells.

The role of IL-35 in the immune system is also reflected in regulating inflammatory responses. The inflammatory response is a self-protective response of the immune system to injury and infection. During the inflammatory response, IL-35 plays a key role. IL-35 can promote the activation and proliferation of monocytes and T cells, thereby participating in the regulation of inflammatory responses.

The role of IL-35 in the immune system is also reflected in regulating the survival and activation of immune cells. IL-35 can promote the survival and activation of immune cells in the body, thereby maintaining the function of the immune system. IL-35 can also regulate the differentiation and function of immune cells, thereby participating in the regulation and control of the immune system.

The role of IL-35 in the immune system is also reflected in regulating the balance and tolerance of the immune system. IL-35 can promote the balance and tolerance of the immune system, thereby maintaining the health and stability of the immune system. IL-35 also modulates the immune system's memory function, allowing the immune system to recognize and respond to invading pathogens more quickly.

The role of IL-35 in the immune system is also reflected in regulating the clearance function of the immune system. IL-35 can promote the clearance function of the immune system, thereby clearing pathogens and junk cells in the body and maintaining the health and stability of the immune system. IL-35 can also regulate the cell clearance function of the immune system, thereby clearing aging or damaged immune cells and promoting the renewal and recovery of the immune system.

The role of IL-35 in the immune system is also reflected in regulating the tissue repair function of the immune system. IL-35 can promote the tissue repair function of the immune system, thereby helping the body repair damaged tissues and organs faster and promoting the body's recovery and recovery. IL-35 can also regulate the cell proliferation and differentiation functions of the immune system, thereby promoting the repair and regeneration capabilities of the immune system.

The role of IL-35 in the immune system is also reflected in regulating the antioxidant capacity of the immune system. IL-35 promotes the antioxidant capacity of the immune system, thereby helping the body better resist free radical damage and protect cells from oxidative stress. IL-35 can also regulate the autophagy function of the immune system, thereby promoting the immune system's self-repair and anti-aging capabilities.

The role of IL-35 in the immune system

Protein Name: Interleukin 35

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