100 Examples of sentences containing the common noun "lymphokine"

Definition

Lymphokine is a type of cytokine produced by lymphocytes that plays a critical role in regulating immune responses. Lymphokines are involved in cell signaling and help to mediate the immune system's response to pathogens, infections, and other immune challenges.

Synonyms

Cytokine
Immune factor
Immunomodulator

Antonyms

Immune suppressant
Inhibitor

Examples

The immune system lymphokine response was triggered by the presence of the virus.
Researchers found that the lymphokine levels increased after vaccination.
The study focused on how lymphokine production affects T-cell activation.
Certain lymphokine interactions are essential for effective immune memory.
Scientists are investigating how lymphokine signaling can be manipulated for therapies.
The role of lymphokine in autoimmune diseases is an active area of research.
Elevated lymphokine levels were observed in patients with chronic infections.
The team aimed to analyze the lymphokine profile in different immune diseases.
The presence of the specific lymphokine suggested an ongoing immune response.
They hypothesized that the lymphokine would enhance the activation of B cells.
An imbalance in lymphokine production can lead to immune disorders.
The laboratory measured the lymphokine concentrations in serum samples.
Researchers have developed assays to quantify lymphokine levels accurately.
Understanding lymphokine pathways is crucial for developing new immunotherapies.
The effects of lymphokine on tumor growth were documented in recent studies.
Certain lymphokine signals can attract immune cells to the site of infection.
The experiment aimed to determine how lymphokine release is regulated.
A significant increase in lymphokine activity was noted post-infection.
They assessed the lymphokine responses in different patient groups.
The role of lymphokine in enhancing macrophage activity cannot be understated.
The lymphokine response was measured at various time intervals post-infection.
Blocking the lymphokine receptor could potentially reduce inflammation.
The findings suggest a link between lymphokine levels and disease severity.
They discovered that certain drugs can modulate lymphokine activity.
The interaction between lymphokine and immune cells is complex.
The lymphokine profile indicated a robust immune reaction.
Understanding how lymphokine influences cell communication is vital.
The study revealed that lymphokine production varies among individuals.
They measured lymphokine levels in response to different stimuli.
The researchers proposed that lymphokine could serve as a therapeutic target.
A decrease in lymphokine signaling was associated with immune deficiency.
The effects of lymphokine on inflammation were carefully analyzed.
The team aimed to characterize the lymphokine response in various tissues.
The role of lymphokine in the immune system is still being explored.
Elevated levels of lymphokine were linked to allergy symptoms.
They examined the lymphokine cascade in their experimental model.
The results showed that lymphokine can enhance the function of natural killer cells.
Variations in lymphokine expression can impact treatment outcomes.
The study concluded that lymphokine plays a pivotal role in immune regulation.
Researchers utilized flow cytometry to analyze lymphokine production.
The release of lymphokine is crucial for coordinating immune responses.
A new lymphokine was identified that shows promise in cancer therapy.
The interaction between lymphokine and dendritic cells was a key finding.
Researchers aimed to identify genetic factors influencing lymphokine levels.
The lymphokine network is essential for maintaining immune homeostasis.
The study showed how lymphokine enhances the recruitment of leukocytes.
Changes in lymphokine signaling can lead to chronic inflammatory diseases.
They hypothesized that lymphokine could be responsible for immune evasion.
The effects of lymphokine on different immune cell types were examined.
The researchers measured lymphokine responses using a novel assay.
The therapeutic potential of lymphokine modulation is being investigated.
The findings indicated that lymphokine could influence tumor microenvironments.
The team hypothesized that specific lymphokine profiles correlate with health outcomes.
Understanding the lymphokine milieu could lead to novel therapeutic approaches.
The lymphokine signaling pathway was targeted in their experimental design.
They reported that changes in lymphokine levels are indicative of disease progression.
Lymphokine interactions with other cytokines are complex and multifaceted.
The therapeutic efficacy of drugs was linked to lymphokine modulation.
They analyzed the mechanisms by which lymphokine influences other immune factors.
The study elucidated the role of lymphokine in immune tolerance.
The researchers focused on the lymphokine response to specific antigens.
A clear understanding of lymphokine biology is necessary for vaccine development.
The lymphokine response can vary significantly between populations.
They aimed to discover new lymphokine targets for autoimmune therapies.
The lymphokine production was measured during various stages of the immune response.
The researchers noted that certain lymphokine profiles could predict outcomes.
The role of lymphokine in cell-mediated immunity is well established.
A decrease in lymphokine levels was observed post-treatment.
The lymphokine signaling axis was identified as a potential therapeutic target.
They reported that lymphokine production could be induced by different stimuli.
Understanding how lymphokine affects metabolic pathways is crucial.
The study emphasized the importance of lymphokine in host defense mechanisms.
The relationship between lymphokine release and pathogen clearance was examined.
The therapeutic implications of lymphokine targeting are promising.
They investigated the dynamics of lymphokine in chronic inflammation.
The findings highlighted the role of lymphokine in tissue repair processes.
Researchers are looking into how lymphokine signaling can be enhanced.
The lymphokine response was significantly different in aged individuals.
They discovered a novel lymphokine that promotes T-cell differentiation.
The interplay between lymphokine and other immune mediators is critical.
The study provided insights into how lymphokine influences immune cell behavior.
Elevated lymphokine levels were found in patients with inflammatory diseases.
The researchers hypothesized that lymphokine might play a role in cancer prognosis.
The lymphokine network is vital for orchestrating immune responses.
Understanding lymphokine interactions can aid in developing vaccines.
The research team analyzed lymphokine production using in vitro models.
Different lymphokine profiles can indicate various immune states.
The effects of lymphokine on angiogenesis are being studied extensively.
Researchers are exploring how lymphokine can be utilized in regenerative medicine.
The role of lymphokine in mediating allergic responses is significant.
They assessed the contribution of lymphokine to chronic inflammatory conditions.
Their findings suggest that lymphokine plays a role in metabolic disorders.
The therapeutic modulation of lymphokine activity is a growing field.
The lymphokine response can be a double-edged sword in infection.
Researchers are developing methods to measure lymphokine efficacy.
The study highlighted how lymphokine influences dendritic cell maturation.
Changes in lymphokine expression levels can be indicative of treatment response.
The lymphokine environment within tumors can affect immune evasion.
They hypothesized that targeting lymphokine pathways could improve immunotherapy.
The discovery of new lymphokine pathways could revolutionize treatment strategies.