자가면역 칸나비노이드오일 CBD

CBD가 면역계 기능과 효율을 개선시키는 방법
How CBD Can Improve Immune System Function and Efficiency

 

칸나비디올(CBD, cannabidiol)은 100 종 이상의 식물칸나비노이드(phytocannabinoid)를 가진 C. Sativa L 품종에 의해 생산된 칸나비노이드(cannabinoid) 화합물입니다. 
THC는 정신자극 효과로 칸나비스 식물의 가장 잘 알려진 성분이지만, CBD는 정신을 자극하지 않는 효능으로 지난 25년 동안 많은 평판을 얻었습니다. 
phytocannabinoids와 cannabis 종에 대한 연구는 (대다수의) 칸나비스 추출 제품의 효능을 매개하는 포유 동물의 체내칸나비노이드체계(endocannabinoid system, ECS)에 대한 합동 연구를 촉발 시켰습니다. 
CBD, or cannabidiol, is a cannabinoid compound produced by varieties of C. Sativa L along with over 100 other phytocannabinoids. THC is the most well-known component of cannabis plants thanks to its psychotropic effects, but CBD has gained much notoriety over the past quarter century for its therapeutic effects, which lack psychotropic activity. 1 Research on phytocannabinoids and the cannabis species has spurred congruent research into the mammalian endocannabinoid system (ECS), which mediates (most of) the effects of cannabis-derived products.

특히, ECS는 면역계가 스스로를 조절하고 스스로 해를 끼치지 않고 건강한 균형을 유지하는 방식에 필수적입니다. 
면역계는 어떤 손상이나 위협을 감지하고 위협을 제거하고 손상을 복구하는 방식으로 대응합니다. 
그러나 때때로 면역 반응은 손상의 정도와 불균형합니다. 
이것은 건강한 조직에 면역 공격을 일으키며, 자가면역으로 알려진 상태입니다. 
자가면역은 관절염에서부터 크론병, 알츠하이머병에 이르기까지 수많은 공통적 증상의 해로운 요소입니다. 
 Specifically, the endocannabinoid system (ECS) is integral to the way that our immune system regulates itself and maintains a healthy balance of self-defense without causing self-harm. The immune system exists to sense any damage or threat and to respond to it in a way that removes the threat and repairs the damage. However, sometimes the immune response is disproportionate to the degree of damage. This results in an immune attack on healthy tissue, a condition known as autoimmunity. Autoimmunity is the harmful component of numerous common conditions, from arthritis to Crohn’s disease to Alzheimer’s.

칸나비노이드오일 전문
www.dopzamall.com/cannabinoid

 

자가면역이 많은 일반적 증상을 유발하지만, 자가면역 반응의 정확한 원인은 분명하지 않습니다. 
그러나, 일반적인 자가면역 상태의 압도적 다수는 면역계를 조절하는 ECS 내의 비정상적 활동과 일치합니다. 
CBD와 phytocannabinoids는 일반적으로 의학 연구 공동체에 의해 광범위한 면역 조절 특성을 보유한 것으로 유명합니다. 
또한, CBD가 면역계에 미치는 영향의 대부분은 비정상적 또는 병리적 활동을 조절할 뿐이며, 전형적인 면역계 활동에는 거의 영향을 미치지 않습니다. 
 While autoimmunity produces the symptoms of many common conditions, the exact cause of the autoimmune reaction is often not clear. However, the overwhelming majority of common autoimmune conditions coincide with abnormal activity within the endocannabinoid system, which regulates the immune system. CBD and phytocannabinoids in general are reputed by the medical research community to possess extensive immunoregulatory properties. Furthermore, the majority of the effects of CBD on the immune system only modulate abnormal or pathological activity, with a negligible effect on typical immune system activity. 

이 개요는 CBD가 면역계의 기능과 효율성을 향상시킬 수 있는 다양한 방법, 즉 건강한 면역계를 유지하고 자가면역 반응을 예방할 수 있는 방법을 논의합니다.
This overview discusses the various ways that CBD can improve immune system function and efficiency: ways in which it can shore up the healthy immune system and possibly prevent autoimmune reactions from happening in the first place.
 
First, let’s get some context.

면역계는 어떻게 작동합니까? How does the immune system work?

면역계의 많은 병리적 (질병 관련) 상태는 면역계가 주어진 자극에 어떻게 반응해야 하는지에 대한 조절 장애의 결과입니다. 
고양이나 땅콩에 알레르기 반응을 보이는 사람들에게는 고양이 비듬과 땅콩 기름 특유의 특정 분자가 신체 내부의 화재 경보기와 동등한 생물학적 특성을 보여줍니다. 
이것은 반응하는 위협에 의해 초래되는 위험에 비해 불균형한 면역계 반응의 예입니다. 
땅콩이 사람을 죽이지는 않지만, 땅콩 알레르기가 있다면 면역계가 사람을 죽일 수도 있습니다. 
그렇다면 무엇이 면역계를 보호하여 존재하는 유기체의 생명을 위협하는 방식으로 행동하게 할까요? 
대답은 그렇게 단순하지 않습니다. 
면역계는 복잡하고, 잘 기름쳐진 기계이며, 그 작용을 매개하는데 사용되는 사이토카인 (cytokines)이라는 수많은 호르몬과 화합물을 갖고 있습니다. 
ECS를 포함하여 몇 가지 강력한 규제 기관 덕분에 복잡하게 균형을 이룹니다. 
면역계인 기계는 수천 개의 움직이는 부분을 가지고 있으며, 하나의 단일 부분이 고장 나면 전체 시스템이 파괴될 수 있습니다.
Many pathological (disease-related) conditions of the immune system are a result of dysregulation of how our immune system should respond to a given stimulus. In people who are allergic to cats or peanuts, certain molecules unique to cat dander and peanut oil set off the biological equivalent of a fire alarm inside the body. This is an example of an immune system response which is disproportionate to the danger posed by the threat to which it is responding: peanuts won’t kill you, but if you have a peanut allergy, then your immune system might kill you while “protecting” you from peanuts.
So what causes the immune system to act in a way that threatens the life of the organism which it exists to protect? The answer isn’t as simple as it may seem. The immune system is a complicated, well-oiled machine, with countless hormones and compounds called cytokines that it uses to mediate its activities. They are intricately balanced thanks to a few robust regulators including the endocannabinoid system. The machine that is the immune system has thousands of moving parts, and if any single one fails, it can disrupt the entire system.

면역계의 기능에는 3가지 기본 단계가 있습니다. There are three basic steps to our immune system’s functionality.

첫째, 면역계는 상해 (손상) 또는 위협 (감염)의 존재를 감지합니다. 
우리의 혈류에 위치하고 모든 점막을 포함하는 면역 세포 (대 식세포, 내피 세포, 수지상 세포 등)는 박테리아와 바이러스에 고유한 화학 태그에 반응합니다. 
또한 손상된 내인성 세포 (몸에 속하는 세포)에서 방출되는 조난 신호에 반응합니다. 
면역계를 자극하는 데 필요한 위협 또는 상해의 임계 값은 다음과 같이 매우 특정한 범위를 유지해야 합니다. 
임계 값이 너무 낮아지면 면역계가 실제로 위험하지 않은 자극에 반응합니다. 
임계 값이 너무 높으면 면역계가 실제로 유기체에 해를 줄 수 있는 위협을 무시하게 됩니다. 
이것은 민감도로 알려져 있으며, 과다 (너무 많음) 및 저급 (너무 작은) 감도 모두 부정적 결과를 초래합니다. 
둘째로, 위협 또는 손상을 감지한 면역 세포는 나머지 면역계에 어떻게 반응하는지 알려줍니다. 
그들의 감수성에 따라 헬퍼 세포라고 불리는 면역계 세포는 인터루킨 (IL), 인터페론 (IFN), 종양괴사인자 (TNF) 및 화학 신호의 여러 다른 부류를 모두 포함하거나 증가시키는 사이토카인으로 알려진 화합물을 생성합니다 면역계의 전반적인 활동. 
cytokines의 잘못된 조합이 면역 세포에 의해 생성되면 (초기 자극에 대한 "잘못된"감도에 기반 함) 비정상적 면역 반응이 일어납니다. 
이것은 많은 자가면역 조건에서 그렇습니다. 
그러나 다시, 정확한 사이토카인의 조합이 생산되는 이유는 여전히 수수께끼입니다. 
민감도와 마찬가지로 사이토카인 신호 전달과 관련된 문제는 면역 기능에 해가 됩니다. 
세 번째로, 효과 세포는 면역 반응을 수행하는 도우미 세포의 반응에 작용합니다. 
이 단계에서 면역계는 실제로 손상된 조직을 치료하거나 과거의 병원체와 내인성 세포를 죽이는 과정을 수행합니다. 
... 감성으로 돌아 가기. 이펙터 세포가 헬퍼 세포로부터의 신호에 너무 민감하거나 반응이 충분하지 않으면 면역 반응이 일어나 유기체의 건강에 해를 끼칩니다.
First, the immune system senses the presence of injury (damage) or a threat (infection).
Immune cells (macrophages, endothelial cells, dendritic cells, etc.) located in our blood stream and comprising all of our mucous membranes react to chemical tags unique to bacteria and viruses. They also respond to distress signals released by injured endogenous cells (cells belonging to your body).
The threshold amount of a threat or injury required to stimulate the immune system has a very specific range in which it must remain: if the threshold drops too low then the immune system will react to a stimulus that isn’t really dangerous; too high a threshold will cause the immune system to ignore threats that may actually be harmful to the organism. This is known as sensitivity, and both hyper- (too much) and hypo- (too little) sensitivity result in negative consequences.
Second, the immune cells that sensed the threat or damage tell the rest of the immune system how to respond.
Depending on their sensitivity, immune system cells called helper cells produce compounds known as cytokines: these include interleukins (IL), interferons (IFN), tumor-necrosis factors (TNF), and several other classes of chemical signals that all either increase or decrease the overall activity of the immune system. If the wrong combination of cytokines is produced by an immune cell (based on “wrong” sensitivity to the initial stimulus), then an abnormal immune response will occur.
This is the case in many autoimmune conditions, but again, exactly why the wrong combination of cytokines is produced remains a mystery. As with sensitivity, issues involving cytokine signaling are just as detrimental to immune function.
Third, effector cells act on the response of the helper cells, carrying out an immune reaction.
In this step, the immune system actually carries out processes either to heal damaged tissue or to kill pathogens and endogenous cells that are past repair.
…Back to sensitivity; if effector cells are too responsive or not responsive enough to the signaling from helper cells, then an immune reaction will occur that is detrimental to the health of the organism as well.

CBD는 면역계 민감성과 신호전달을 어떻게 개선합니까? How does CBD improve immune system sensitivity and signaling?

CB2 cannabinoid 수용체가 면역 세포의 정상적 기능에 필수적이지만, CBD가 면역계 기능에 미치는 치료 효과의 많은 부분은 전형적 칸나비노이드 수용체와는 다른 메커니즘에 의해 매개됩니다. 
사실 CBD의 많은 치료 효과는 CBD가 세포에 의해 발현되는 유전자를 변경시키는 드문 능력에 기인합니다.3 
면역계에서 이것은 감수성과 신호 전달에 모두 영향을 미칩니다. 
CBD는 발현되는 유전자의 조합을 제한하여 세포가 생산할 수 있는 사이토카인의 조합 (염증 촉진제 대 항-염증제)과 반응할 수 있는 조합 (수용체가 있는 사이토카인)을 제한합니다. .
While CB2 cannabinoid receptors are vital to the normal function of immune cells, many of the therapeutic effects of CBD on immune system function are mediated by separate mechanisms than the classical cannabinoid receptors. In fact, much of the therapeutic effect of cannabidiol is due to CBD’s rare ability to alter which genes get expressed by cells.3 In the immune system, this affects both sensitivity and signalling. CBD limits the combinations of genes that get expressed, which limits the combinations of cytokines that cells are able to produce (proinflammatory vs. anti-inflammatory) and also the combination that they are able to respond to (the cytokines for which they have receptors).

CBD는 면역 억제 유전자의 발현을 증가시킵니다. CBD increases the expression of immunosuppressant genes

우리 몸의 모든 세포에는 우리 유전자 전체가 들어 있습니다. 
각각의 유전자 (인간은 약 2 만 개가 있습니다)는 특정 단백질을 코드합니다. 
세포의 유일한 기능은 DNA가 작동하는 데 필요한 수천 개의 서로 다른 단백질을 만드는 것입니다. 
단백질은 우리 세포의 기능을 위한 기술적 목적을 제공하는 거대한 기능 분자입니다. 
근육 세포의 단백질은 신체의 모양을 물리적으로 변화시켜 근육 섬유를 수축시킵니다. 
망막의 단백질은 빛의 다른 파장에 다르게 반응하여 우리가 볼 수 있게 합니다. 
단백질은 말 그대로 모든 것을 합니다. 
진지하게. 
세포 하나 하나의 활동은 단백질에 달려 있습니다. 
모든 "화학 신호"는 수용체 단백질과 상호 작용하는 효소 단백질에 의해 생성 된 일부 분자를 포함합니다. 일반적으로 퍼즐의 비 단백질 조각은 실제 신호 분자 자체입니다. 
모든 세포 기능은 단백질에 달려 있으며 각 종류의 세포는 표현하는 특정 단백질 때문에 서로 다릅니다: 물론 각 세포는 인간 게놈에 있는 모든 유전자를 표현할 필요가 없습니다 (모든 세포가 유전자). 
단백질은 그 단백질을 암호화하는 특정 유전자가 세포에 의해 활성화되어 그 단백질을 생산할 때 "발현" 됩니다. 
면역계에는 사이토카인을 암호화하는 수많은 유전자가 있으며 면역 줄기 세포가 수리 세포 (구급차) 또는 킬러 세포 (탱크)로 분화되는지 여부를 결정하는 신호가 있습니다.
이 신호를 전사 인자라고 부릅니다.
 "유전자가 전사되거나 활성화된다. 
전사 인자는 단백질 자체이기도 하며, 유전자 자체가 생산해야 합니다. 면역계가 건물 탱크나 구급차 사이에서 선택해야 한다면 전사 인자는 어떤 기계 (세포)가 더 많이 생산되는지 결정하는 집행 임원입니다. 
전사 인자가 구급차보다 탱크를 더 많이 만들면 면역계로 인한 파괴가 그것이 할 수 있는 모든 수리보다 중요합니다. 
이것은 면역계 장애의 일반적 특징 중 하나입니다. 
너무 많은 킬러 세포가 생성되고 손상을 제거하기에 충분한 수복 세포가 없습니다. 
CBD는 PPARγ로 알려진 수용체를 활성화시킵니다. 
특정 전사 인자에 의해 활성화 될 때, PPAR 수용체는 그들의 세포에서 유전자의 발현을 조절합니다. 
PPARγ 수용체는 면역 억제 단백질, 구급차를 만들 단백질, 탱크가 아닌 단백질을 코딩하는 유전자의 발현을 증가시킵니다. 
본질적으로 PPARγ 수용체를 활성화시킴으로써 CBD는 면역계의 집행위원회에 곧바로 들어가서 불필요한 손상을 야기하는 기계보다 신체를 수선하고 손상을 방지하는 데 도움이 되는 기계를 생산하도록 지시합니다 .2, 3 
본질적으로 CBD는 면역계에서 PPAR 수용체를 활성화시켜 면역계가 덜 활성화되고 염증 및 파괴보다 수선 및 예방과 관련된 기계를 더 많이 생산합니다.
Every cell in our body contains a full copy of our all of our genes. Each of our genes (humans have about 20,000) codes for a specific protein. The whole point of DNA – its only function – is to create the thousands of different proteins that our cells need to operate. Proteins are massive functional molecules that serve some technical purpose for the function of our cells.
Proteins in muscle cells physically change their shape to contract the muscle fiber. Proteins in the retina react differently to the different wavelengths of light, allowing us to see. Proteins, quite literally, do it all. Seriously. Every single activity inside every single one of your cells depends on a protein. All “chemical signalling” involves some molecule that was created by an enzyme protein, interacting with a receptor protein. Usually, the only non-protein piece of the puzzle is the actual signalling molecule itself.
All cellular functions depend on proteins, and each kind of cell is different because of the specific proteins that it expresses: of course, each cell doesn’t need to express all of the genes in the human genome (remember every cell contains all of the genes). A protein is “expressed” when the specific gene that codes for that protein is activated by the cell to then produce that protein.
In the immune system, there are hundreds of genes that code for cytokines, and for the signals that determine whether immune stem cells differentiate into repair cells (ambulances) or killer cells (tanks): these signals are called transcription factors because they “factor into” which genes get transcribed, or activated.
Transcription factors are also proteins themselves, that need to be produced by their own genes. If the immune system has to choose between building tanks or ambulances, then transcription factors are the executive officers that decide which machines (cells) to produce more of. If the transcription factors build more tanks than ambulances, then the destruction caused by the immune system will outweigh any repairs it can make. This is one of the common characteristics of immune system disorders: too many killer cells are created and not enough repair cells to clean up the damage.
CBD activates a receptor known as PPARγ (PPAR gamma). When activated by certain transcription factors, PPAR receptors modulate the expression of genes in their cell. PPARγ (PPAR gamma) receptors increase the expression of genes that code for immunosuppressant proteins, proteins that will build ambulances, not tanks. Essentially, by activating PPARγ receptors, CBD goes straight to the executive board of the immune system and tells it to produce machinery that will help to repair the body and prevent damage rather than machinery that causes unnecessary damage.^{2, 3}
In essence, CBD activates a PPAR receptor on immune cells that causes the immune system to become less active and to produce more machinery associated with repair and prevention than with inflammation and destruction.⁴

CBD는 친염증성 유전자 및 반응성 산소 종 (ROS)의 생성을 감소시킵니다
CBD decreases the production of proinflammatory genes and reactive oxygen species (ROS)

면역계가 병원성 적을 파괴하기 위해 탱크가 필요하다고 결정하면, 생성된 살상 세포는 감염된 영역에 염증의 형태로 넘치게 됩니다. 
이들 살상 세포는 Oxyclean이나 표백제가 얼룩에 작용하는 것과 같은 방식으로 작용하는 산소 (반응성 산소 종)를 함유한 반응성 화합물을 방출함으로써 손상을 입힙니다. 
의류의 대부분의 얼룩은 음식의 산물이며, 이는 거의 한 번 살았던 것에서 나온 것임을 의미합니다. 
모든 생명체에 의해 생성된 큰 분자는 산소 함유 화합물에 민감합니다. 
Oxyclean이 얼룩을 만드는 생물학적 분자를 분해하는 것처럼, 살상 세포에 의해 방출되는 ROS는 세포막과 세포의 DNA를 접촉시킵니다. 
영양 및 건강 산업의 모든 분야의 사람들은 식단에서 항산화 물질의 중요성을 강조하지만, 왜 항산화 물질이 필요한가, 왜 그렇게 많은 블로거가 그들에 대해 이야기합니까? 
산화방지제는 중요한 세포성분이 손상되기 전에 ROS를 유인하는 비타민 E 및 CBD와 같은 화합물입니다. 
산화방지제는 세포 주위에 떠 다니는 위험한 ROS를 끊임없이 제거하는 작은 필터와 같습니다. 
면역계의 수리 세포와 킬러 세포에 의해 생성된 ROS에 의해 생성되는 천연 항산화 물질의 균형은 그것이 제대로 작동하는지 여부와 완전히 관련이 있습니다. 
CBD는 몸이 생산하는 천연 항산화 물질의 양을 증가시킵니다. 
이것은 적어도 부분적으로 면역 세포에 의해 발현되는 유전자를 변경하는 능력의 결과이지만, CBD 자체는 적어도 항 비타민 E만큼이나 강력한 효능을 지니고 있습니다. 
이는 CBD 자체가 항산화제로 신체의 항산화 능력을 잃어 버리고 혈중에서 더 높은 수준으로 순환합니다. 
CBD의 면역계에 대한 전반적 효과에 대한 또 다른 제안된 메커니즘은 PPARγ 수용체 활성화의 다른 측면과 관련이 있습니다. 
수용체의 부류인 PPAR은 주어진 세포에서 어떤 유전자가 발현되는지를 조절합니다. 
면역 세포에서 PPARγ는 주로 면역 억제성 유전자의 발현을 증가시킵니다. 
그것의 활성화는 친염증 유전자의 발현을 증가시키는 다른 PPAR의 발현을 감소시키는 2차적 효과를 가집니다. 
CBD는 선을 늘리고 악을 줄입니다.
When the immune system has decided that it needs tanks to destroy a pathogenic enemy, the killer cells that it creates flood the infected area in the form of inflammation. These cells exert their damage by releasing reactive compounds containing oxygen (reactive oxygen species), which act in the same way that Oxyclean or bleach acts on a stain: by breaking down any molecules they come into contact with.
Most stains in clothing are a product of food, which means they almost certainly came from a once-living thing. The large molecules produced by all living things are sensitive to oxygen-containing compounds. Just like Oxyclean degrades the biological molecules making up a stain, ROS released by killer cells degrade the cell membrane and DNA of cells they come into contact with.
People from all corners of the nutrition and health industries emphasize the importance of antioxidants in your diet, but why are antioxidants necessary and why do so many bloggers talk about them? Antioxidants are compounds like vitamin E and CBD which attract ROS before important cell components get damaged. Antioxidants are like little filters that constantly remove dangerous ROS as they float around the cell. The balance of natural antioxidants produced by the immune system’s repair cells and of ROS produced by its killer cells is completely relevant to whether or not it works properly.
CBD increases the amount of natural antioxidants that our bodies produce. This is at least partially a result of its ability to alter the genes that get expressed by immune cells, however CBD itself has antioxidant properties at least as potent as vitamin E. This has lead some to propose that CBD itself takes some of the antioxidant load off of the body’s own antioxidant ability, leaving higher levels circulating in the blood.⁵
Another proposed mechanism for CBD’s overall effect on the immune system has to do with a different aspect of its activation of PPARγ receptors. PPAR, a class of receptors, controls which genes get expressed in a given cell. In immune cells, PPARγ happens to increase expression of genes that are mainly immunosuppressive. Its activation has the secondary effect of decreasing the expression of other PPARs that increase the expression of proinflammatory genes. CBD increases the good and decreases the bad.⁶