But chronic inflammation — a danger signal blaring indefinitely — can lead to all manner
of cellular dysfunction, contributing to many degenerative diseases.
Not exact matches
During this clinically silent period, however, there may be indicators
of dysfunction on a
cellular level, such as the elevated levels
of S100B antibody found in the cerebral spinal fluid in the football players in the study, even six months after the end
of the season, which he said, could «potentially herald -LSB--RSB- the early stages
of [chronic traumatic encephalopathy] or CTE.»
One reason group A Streptococcus and other invasive pathogens are so dangerous is they release pore - forming toxins that can poke holes in the membranes
of cells within a person's body, leading to
cellular dysfunction or cell death.
«
Dysfunction of cellular powerplant shakes B - vitamin metabolism, causes genetic damage.»
While changes in insulin secretion are unlikely to play a major role in the acute effects
of SD,
cellular stress in pancreatic tissue suggests that chronic SD may contribute to the loss or
dysfunction of endocrine cells, and that these effects may be exacerbated by normal aging, say the researchers.
Understanding the best ways to work with RNA and the various RNA detection methods can help scientists advance our understanding
of gene expression patterns and elucidate the roles
of different genomic elements in
cellular function and
dysfunction.
Recent large - scale efforts have launched a new generation
of studies that aim to identify the molecular and
cellular characteristics
of the brain and how these translate into normal brain function — or, in the case
of disease,
dysfunction.
In many degenerative diseases, including neurological, metabolic, genetic, and inflammatory diseases, it's thought that the accumulation
of misfolded proteins leads to
cellular dysfunction and death.
They found that the genetic mutation associated with Leigh's disease compromised ATP levels, and this reduction
of ATP was enough to cause significant
cellular dysfunction.
Despite the protection offered by the
cellular environment, the integrity
of DNA is continuously challenged by a variety
of endogenous and exogenous agents (e.g. ultraviolet light, cigarette smoke, environmental pollution, oxidative damage, etc...) that cause DNA lesions, interfering with proper
cellular functions, such as transcription, inducing premature
cellular death and finally premature ageing and organs
dysfunctions.
The goal
of our research is to better understand the
cellular and molecular mechanisms involved in neuronal and synaptic
dysfunctions characterizing neuropsychiatric diseases.
We will seek investigators that span a range
of metabolism expertise, with an emphasis on interdisciplinary and collaborative - minded researchers passionate about exploring the basic molecular and mechanistic underpinnings
of cellular metabolism and its
dysfunction in human disease.
Low levels
of the naturally occurring protein progranulin exacerbate
cellular and cognitive
dysfunction, while raising levels can prevent abnormalities in an Alzheimer model
We investigated telomere
dysfunction, a recently discovered biomarker
of cellular senescence, and found that the number
of senescent fibroblasts increases exponentially in the skin
of aging baboons, reaching > 15 %
of all cells in very old individuals.
These data indicate that
cellular senescence is causally implicated in generating age - related phenotypes and that removal
of senescent cells can prevent or delay tissue
dysfunction and extend healthspan.
SAN FRANCISCO, CA — A new study from the Gladstone Institutes shows for the first time that impairments in mitochondria — the brain's
cellular power plants — can deplete
cellular energy levels and cause neuronal
dysfunction in a model
of neurodegenerative disease.
The far more nuanced and precise data produced by single cell analyses will allow for better understanding
of pancreatic islet function and
dysfunction at the
cellular level.
Cancer hijacks the immune system by various
cellular and molecular mechanisms and
dysfunction of immune system arises during the early stages
of cancer and throughout progression to later aggressive stages.
Enhanced amyloidogenic processing
of APP by the ß - site APP cleaving enzyme (BACE) and the γ - secretase complex and reduced clearance lead to increased intracellular levels
of soluble oligomeric Aß, resulting in
cellular dysfunction comprising e.g., synaptic failure, mitochondrial
dysfunction, enhanced oxidative stress, neurotransmitter and neurotrophin depletion, inflammation, and apoptosis which is reflected in patients as clinical symptoms such as cognitive deficits [2, 3].
These wipes have a hazard rating
of 7 and ingredients have been linked to cancer, immunotoxicity, allergies, developmental problems, reproductive toxicity, organ
dysfunction, endocrine disruption and
cellular changes.
Would ketosis hurt ya or help ya... Completely depends on why you're hypothyroid... for instance, if you're hypothyroid because
of stress / cortisol
dysfunction, then chances are your reverse T3 (rT3) has been upregulated thus displacing free T3 (at the
cellular level) in an effort to slow you down and get you recovered.
Increasing attention is being paid to mitochondrial
dysfunction as a contributor to many diseases because these organelles lie at the cross roads
of sensing and integrating cues from the environment to trigger adaptive and compensatory
cellular responses.
Over the course
of your lifetime free radical damage tends to accumulate, and scientists theorize that this accumulated damage contributes to
cellular dysfunction and ultimately to declining health as we age, and is thought to be a significant part
of the aging process itself.
Remember the «upstream» cause
of type two diabetes is the fats in the diet which cause insulin resistance and
cellular mitochondrial
dysfunction.
Mitochondrial damage further drains
cellular energy by creating a disproportionate need for repair, perpetuating a vicious cycle.21 Mitochondrial
dysfunction can affect immunity, digestion, cognition and any energy - intensive system within the body and is a key component
of many chronic illnesses.
The progressive demethylation
of DNA (largely due to toxin exposure) is one
of the primary drivers
of the aging process and eventually leads to
cellular and metabolic
dysfunction.
But defects
of the DNA repair system in brain cells could contribute to the accumulation
of potentially disruptive and toxic metabolites
of cellular insult, and lead to neurological
dysfunction.»
Identification and correction
of these metabolic abnormalities, including leptin resistance and
cellular thyroid
dysfunction, can result in dramatic long term successful weight loss.
Scientists estimate that a 30 % reduction
of glutathione is enough for
cellular dysfunction to occur.
However, the metabolic theory
of cancer proposes that some cancers are caused by a
dysfunction of cellular respiration and that the restriction
of glucose in the.
The end result
of the hydrogenation process is a completely unnatural fat that causes
dysfunction and chaos in your body on a
cellular level...... your body doesn't know what to do with it.
It is usually an excess
of cellular damage that isn't all that relevant in normal aging - any sort
of global
dysfunction in cells will tend to share high level similarities with aging, even if the damage is different.