The Scientist » News & Opinion » Daily News
Documenting the epigenetic landscape of human innate immune cells reveals pathways essential for training macrophages.
September 25, 2014
|
WIKIMEDIA, CHRISTOPH BOCK (MAX PLANCK INSTITUTE FOR
INFORMATICS)
|
Genome-wide epigenetic and transcription analyses of monocytes and macrophages have uncovered two crucial pathways driving macrophage training—a recently discovered form of innate immune memory—according to two studies published in Science today (September 25). Together with a third paper documenting the transcriptional diversity of early immune cell progenitors, the studies present the latest results from the ongoing European BLUEPRINT initiative, which aims to decipher the epigenomes of blood cells during health and disease.
“They did a very thorough transcriptomic and epigenomic analysis of these cells and . . . they uncover not just immunologic pathways, which would be expected, but also, interestingly, some metabolic pathways that may be important to the different immunologic phenotypes of these cells,” said Ofer Levy of Boston Children’s Hospital and Harvard Medical School who was not involved in the studies.
Monocytes are part of the innate immune system. They circulate in the blood, but also exit to surrounding tissues, differentiate into macrophages, and patrol the body disposing of pathogens and dead cells. Under certain conditions, macrophages can become either tolerant of pathogens or trained to react against additional infections. This training of macrophages is a recently discovered process, and aside from providing a physiological answer for some previously unexplained effects of vaccination, it also challenges the established dogma of innate immunity.
In humans, the immune system has two arms: innate and adaptive. The traditional view is that innate immunity is broad-acting and non-specific, while adaptive immunity establishes memories for very specific pathogens, explained Christine Stabell Benn, a professor of global health at the Statens Serum Institute in Copenhagen who also did not participate in the studies. “So, if you give a vaccine against measles you induce protective immunity against measles and nothing else.” But, she added, “what we have seen in our epidemiological studies is that vaccines [also] have non-specific effects.” The Bacille Calmette-Guérin (BCG) vaccine, for example, confers protection against a variety of infections with other microorganisms—and trained macrophages appear to be responsible. The new papers, said Stabell Benn, “are now providing the molecular mechanisms behind these epidemiological observations.”
Mihai Netea, a professor of medicine at Radboud University in the Netherlands and an author on two of the papers, has characterized trained macrophages in the dish, in animals and in healthy people, comparing the trained phenotype to tolerant macrophages, naive macrophages (neither trained not tolerant), and monocytes. But to get the bigger picture of what defines these different yet related cells, “I went to the group of Hank [Hendrik] Stunnenberg and asked for his help with the epigenetics,” Netea said. Stunnenberg is a professor of molecular biology at Radboud University, an author on all three papers and the coordinator of the BLUEPRINT consortium.
Netea, Stunnenberg, and their colleagues collected monocytes from healthy people and from them derived the three macrophage types—tolerant, trained, and naive. In these four cell types, they then analyzed genome-wide distributions of four epigenetic indicators of gene activity: DNAse hypersensitivity and three different histone modifications—trimethylation of histone H3 at lysine 4, monomethylation of histone H3 at lysine 4, and acetylation of histone H3 at lysine 27. They also analyzed genome-wide transcription and transcription factor binding.
Together the analyses pointed to specific genes and pathways that defined the four cell types, as well as the genes’ surrounding regulatory regions. Of particular interest was the discovery that genes associated with signaling via cyclic adenosine monophasphate (cAMP)—a molecule regulating cell metabolism, among other processes—and glycolysis—a pathway that produces energy from glucose—were specifically activated in the trained macrophages.
The team went on to show that these two pathways were necessary for developing the trained phenotype. Cultured monocytes in which cAMP signaling or the glycolysis pathway were inhibited exhibited impaired production of training-induced cytokines. Inhibition of cAMP or glycolysis in mice increased susceptibility to secondary infections following trained innate immunity.
Both training and tolerance induction in macrophages have a number of clinical implications, explained Netea. For example, too much tolerance can cause immunoparalysis—a life-threatening complication of sepsis, he said. Such patients could be helped, added Stunnenberg, “if we could turn around a paralyzed cell and activate it.” But training “can probably also in some situations be detrimental to the host,” said Stabell Benn, by potentially causing excessive inflammation, for example. Having the epigenomic information about these cells, she added, is therefore important “in the first place, to understand what is going on, and in the second place, because it offers the potential of both down-regulating over-energetic cells but also revitalizing those that have been paralyzed.”
L. Chen et al., “Transcriptional diversity during lineage commitment of human blood progenitors,” Science, doi: 10.1126/science.1251033, 2014.
S. Cheng et al., “mTOR- and HIF-1a–mediated aerobic glycolysis as metabolic basis for trained immunity,” Science, doi: 10.1126/science.1250684, 2014.
S. Saeed et al., “Epigenetic programming of monocyte-to-macrophage differentiation and trained innate immunity,” Science, doi: 10.1126/science.1251086, 2014.
I am from USA. I was suffering from HEPATITIS B for over 3 years, i was hopeless until one of my friend directed me to a herbal DR. Dr Chike on Youtube, she said the Dr has herbal medicine that treat HEPATITIS B also said the Dr has helped people with. HERPES, CANCER, DIABETES, HPV, HERPES, HSV 1 .2, Fever, Fibromyalgia, Fatigue and chronic pains. At first I never believed her but after a lot of talk. I decided to contact him, just few days ago i contacted him and he told me what to do which i did and he sent to me a herbal medicine via {DHL} with prescriptions on how i will take it for a period of days. After i finished taking the medicine for 2 weeks he told me to go for a test which i also did and when the result came out i was surprised to see that i am negative. I am proud to tell you that I am the happiest person on earth. Big thanks to Dr Chike herbs .. I pray you find a solution in him. For more information on how to get treated Contact Dr on, text/call via: +1 (719) 629 0982 WhatsApp . +233502715551, or Facebook page, @ Dr Chike Herbal Remedy.
ReplyDelete