A crucial part of our defence against disease, the composition and diversity of the gut microbiome can even affect how cancer immunotherapy works. However, little research has focused on the … Continue Reading The tumour microbiome influences immune response and survival in pancreatic cancer.
Existing in its own universe, controlling and caring for its host, the human gut contains trillions of bacteria, known as the microbiota, responsible for digesting food and regulating the immune … Continue Reading Gut microbiota protect against neurologic damage from viral infections.
Cancer immunotherapy, which uses the body’s immune defenses to fight cancer, has transformed cancer treatment over the past decade, however, only a handful of solid tumors have responded to treatment, … Continue Reading Synthetic bacteria delivers nanobodies to kill cancer.
Antibiotics are medicines used to prevent and treat bacterial infections. Antibiotic resistance occurs when bacteria adapt in response to the use of these medicines and become immune to their mode … Continue Reading New class of antibiotic synthesized from the microbiome.
Platelets are cells found circulating in the bloodstream, helping to form blood clots to stop bleeding and promote healing when a person is injured. However, their hyperactivation can also contribute … Continue Reading Synthetic platelet ‘decoys’ outsmart both clots and cancer.
The link between the gut microbiota, also known as the second brain, and mental health has long been studied. The idea of substances produced by the symbiotic microorganisms in the … Continue Reading Gut microbiome linked to mental health.
All of our thoughts, bodily functions, memories, and senses are controlled by the central nervous system (CNS), consisting of the brain and spinal cord. Inside the CNS it is the … Continue Reading Textbooks redefined as microglia seen entering the Peripheral Nervous System.
Widely hailed as a breakthrough in cancer therapy, immunotherapies release the brakes of the body’s immune system to launch an efficient tumor attack, however, these treatments don’t work for every … Continue Reading Gut microbiome directs immune system to fight cancer.
The human gut contains trillions of bacteria, known as the microbiota, which play a crucial role in digesting food and regulating the immune system. Multiple studies show certain bacteria and … Continue Reading Early-life exposure to microbiota restricts colon cancer later in life.
The human heart has four valves, thin membranes known to open and close to control blood flow through the heart and the rest of the body. When the valves do … Continue Reading New type of immune cell discovered is crucial for heart valve formation.
The gut is colonized by diverse microorganisms forming a microbial community known as the gut microbiota. Research suggests the gut microbiota immunomodulatory effect influences pathologic conditions centered in the gut, … Continue Reading Antibiotic disruption of the gut microbiome dysregulates skeletal health.
There has been a conspicuous increase in life-threatening food allergies in societies adopting or hosting Western-based culture. One hypothesis to explain this rising morbidity in a highly specific demographic is … Continue Reading Gut microbes from healthy infants block milk allergy development in mice.
The immune system connects the gut microbiome to aging. Thoughts health innovators?
Glial cells are immune cells found in the brain not directly involved in synaptic interactions or electrical signaling, although their supportive functions are known to play a crucial role in … Continue Reading Study identifies new key role for astrocytes in memory and learning.
When a person is exposed to an infection, they are often protected from getting the same infection again by immune memory, the part of the immune system capable of remembering … Continue Reading New part of the immune system identified, expected to evolve vaccination.
An artificial cell is a bioengineered particle mimicking a naturally occurring biological cell. The hypothesis involves synthetic entities biomimicking some of the properties of natural cells, such as surface characteristics, … Continue Reading New artificial cells successfully minimized to target and kill specific bacteria.