Immune Responses Articles & Analysis: Older
194 articles found
At present, recombinant protein drugs are widely used in various fields such as tumors, autoimmune diseases, metabolic diseases, geriatric diseases, and degenerative diseases.FcyR (Fc gamma receptors) are receptors expressed on the surface of immune cells, primarily responsible for recognizing and binding to the Fc (Fragment crystallizable region) part of ...
The primary focus is on harnessing this technology for modifying primary T cells, a type of white blood cell crucial for the immune response. This approach has opened new avenues for immunotherapy, providing hope for treating conditions like cancer, autoimmune disorders, and genetic diseases. ...
Immunomodulatory Therapies The concept of harnessing the body’s immune response against viral infections has gained traction over the years. Immunomodulatory therapies aim to enhance the immune system’s ability to recognize and eliminate viral pathogens. In 2024, the development of monoclonal antibodies and immune ...
Hip fractures are common, especially in older adults, and require timely medical and surgical intervention. These injuries can significantly impact a patient’s mobility, quality of life, and overall health. Hip fractures are a medical emergency, and delayed treatment can lead to severe consequences. Elderly patients are particularly vulnerable to complications from prolonged immobility, ...
Proteins, such as lectins or glycan-binding antibodies, often recognize specific sugar motifs, and understanding these interactions is critical for deciphering their roles in biological processes like cell signaling, immune response, and pathogen recognition. Microarray technology enables researchers to study the binding affinity of proteins to a wide array of ...
The relatively low immunogenicity of these particles reduces the risk of adverse immune responses, a common concern in gene therapy approaches. Researchers can better evaluate the safety and efficacy of their treatments when employing premade AAV particles, which fosters confidence in advancing these therapies into clinical settings. ...
Each of these classes has distinct roles in the immune response and cellular communication. One of the remarkable properties of cytokines is their multipotency; a single cytokine can act on multiple cell types, influencing various biological responses. ...
Each of these platforms offers unique advantages, such as enhanced stability, targeted delivery, and reduced immune responses, making them promising candidates for future mRNA therapeutics. ...
Immunomodulation: These cells exhibit immunomodulatory properties, which means they can influence the immune response. This ability is particularly beneficial in transplant medicine, where Wharton’s jelly cells could help prevent rejection by the recipient’s immune system. ...
Peptide-based vaccines are designed to elicit specific immune responses, offering immunity against a variety of infections. They are particularly important in the fight against rapidly mutating viruses, such as influenza and COVID-19. ...
In eukaryotic cells, RNA polymerase II is specifically responsible for synthesizing mRNA. Its accuracy and efficiency are crucial to maintaining correct genetic coding. ...
Complementing their drug development efforts, Alfa Cytology also spearheads vaccine development services for brain tumors, focusing on harnessing the body’s immune response to combat tumors. These services encompass antigen discovery, vaccine formulation, and immunogenicity testing, offering researchers comprehensive tools to develop innovative vaccines aimed at ...
For instance, thermosensitive liposomes that release their payload in response to heat offer a promising strategy for localized drug delivery in combination with hyperthermia. ...
Precision-Cut Lung Slices (PCLS) have emerged as a innovative ex vivo model that allows researchers to explore deep into lung physiology, disease mechanisms, and pharmacological responses. By offering a unique combination of biological complexity and controlled experimental conditions, PCLS serve as a critical bridge between the limitations of traditional in vitro cell cultures and the ...
Under normal conditions, they participate in intercellular communication, regulation of immune responses and embryonic development. In pathological states, changes in sialic acid proteins are associated with the development of various diseases, such as cancer, infectious diseases and autoimmune diseases. ...
They play an important role in many biological processes such as signal transduction, cell communication, immune response, hormone secretion, and so on. These proteins are usually synthesized in the endoplasmic reticulum (ER) of the cell and then transported out of the cell through a series of biosynthesis and transport processes. ...
This modification process plays a crucial regulatory role within the organism, particularly in terms of protein function and stability.Glycosylation modifications also impact antibodies, manifested in the following ways:Antibody StabilityGlycosylation modification can influence the stability of antibodies, making them more resistant to proteolytic degradation, thereby prolonging the lifespan of ...
|Certain host proteins may induce an immune response.|Regulatory agencies have strict standards that require the amount of host protein residue in biological products to be within a safe range.Host protein residue detection is a critical step in the biopharmaceutical process to ensure product quality and safety. ...
Including natural lipids in your diet or using skincare products containing these healthy fats can promote a youthful and radiant complexion. Boosting Immune System Natural lipids have immune-boosting properties that can help strengthen the body's defense mechanisms. They support the production of immune cells and help regulate inflammation, ...
ByMatexcel
Immune receptors, which are protein molecules expressed on the membrane of immune cells, play a key role in regulating immune responses. ...