A base-by-base comparison of the genome sequences of 240 species of mammals has pinpointed sites in the human genome where mutations are likely to cause disease. The sites are all perfectly conserved across the mammalian family tree over 100 million years of evolution, indicating they underlie fundamental biological processes that do not tolerate diversity or change very well.
Synonymous or silent mutations do not change the sequence of the protein that they encode. With some exceptions, they do not trigger any effect. Last year, however, a study by researchers from the University of Michigan tried to refute this concept after finding that they altered the protein function. But breaking dogmas can have answers. A group of scientists from various institutions has found that this work could have a method error.
Antitumor immunotherapy has notched big wins, but in a small proportion of patients. And one possible explanation for why is that approved immunotherapies are not yet planting their flag on most of the battlefields where tumors and the immune system engage in combat. At the opening AACR 2023 plenary session, Ralph DeNardo celebrated the successes of the current, mostly T-cell-based approaches, but also encouraged his colleagues to think more broadly about the antitumor immunity.
Heterogeneity, in both tumors and their microenvironment, limits the success of current cancer treatments. But it also provides opportunities. Heterogeneities “are not barriers to therapy, they are vulnerabilities to be exploited,” was how David DeNardo described his take at the 2023 annual meeting of the American Association for Cancer Research (AACR) on Sunday.
The editing in human cells and in mice of the survival motor neuron 1 gene (SMN1) restored the levels of SMN protein that the mutation of the SMN2 gene produces in spinal muscular atrophy. Scientists from the Broad Institute in Boston and The Ohio State University reversed the mutation using the base editing technique.
A live-attenuated vaccine targeting SARS-CoV-2 infection, which can be administered through the nose, has shown promise in preclinical animal studies carried out by researchers in Berlin. In an article published April 3, 2023, in Nature Microbiology, the authors reported that the COVID-19 vaccine candidate – sCPD9 – triggered the most robust immune response in a hamster model when compared with Biontech/Pfizer’s mRNA vaccine BNT162b2 and Ad2-Spike.
Partially blocking a receptor that helps regulate the activity of the inflammatory cytokine molecule interleukin-6 (IL-6) seems to promote tissue regeneration and block degeneration in a model of osteoarthritis. As reported in the March 22, 2023, issue of Science Translational Medicine, the receptor, called glycoprotein 130 (gp130), regulates both positive and negative inflammatory responses that can help regenerate tissue, but also cause degeneration.
A deficiency in fumarate metabolism could be behind a new mechanism of inflammation mediated by mitochondrial DNA and RNA. Two independent and simultaneous studies described how the accumulation of fumarate in the mitochondria released the genetic material of this organelle through vesicles, activating an inflammatory signaling pathway.
Somatic human genome editing has made huge strides in the past five years, but the likely extremely high prices will be unsustainable. A global commitment to affordable, equitable access is urgently needed because the costs and infrastructure needs of this form of treatment are not manageable for either patients or health care systems.
The researcher who pioneered prenatal surgery to correct neural tube defects has turned her attention to using CRISPR-edited gene therapies to correct severe monogenic diseases in utero. The availability of prenatal genetic diagnosis and advances in treating fetuses, and also in gene therapy/gene editing, make it possible to repair almost any defect in the genetic code. At the same time, there is a clear rationale for intervening before birth, Tippi MacKenzie, professor of surgery at UCSF’s School of Medicine, told attendees of the third International Human Genome Editing Conference in London on March 7.