Human SHPK (SHK) knockout HEK-293T cell lysate

Supplementary info

This supplementary information is collated from multiple sources and compiled automatically.

Activity summary

SHK also known as Shaker-related voltage-gated potassium channel or Kv1.3 functions in the regulation of ion flow across the cell membrane. It belongs to the voltage-gated potassium channel family and has a molecular mass of approximately 57 kDa. Expression of SHK occurs mainly in the nervous system including the brain and in lymphocytes playing an important role in maintaining the cellular membrane potential and modulating action potentials.

Biological function summary

This channel is involved in repolarizing the neuronal membrane following action potentials. SHK channels contribute significantly to the excitability of neurons and T cells facilitating their activation and response. The protein does not exist in isolation but forms part of a complex with other ion channels impacting cellular excitability and immune responses. This interaction with other ion channels allows it to fine-tune the physiological responses important for cellular signaling.

Pathways

SHK participates in important neurological and immune system pathways. It is part of the neuronal signaling pathways where it affects neurotransmitter release. Additionally SHK aligns with the JAK-STAT pathway in T cells influencing their maturation and function. SHK operates alongside proteins like Kv1.1 in these pathways interacting to modulate channel conductance and overall cellular activity.

Associated diseases and disorders

It is associated with multiple sclerosis and type 1 diabetes. SHK channel dysregulation affects the immune system contributing to aberrant immune responses seen in these autoimmune diseases. The protein interacts with other channels including Kv1.5 influencing disease progression. Targeting SHK for therapeutic intervention offers possible strategies for managing these conditions by correcting the dysregulated channel activity.