Breaking News
March 21, 2018 - Insurance Company Hurdles Burden Doctors, May Harm Patients
March 21, 2018 - Renal Transplant from HCV-Positive Donors Feasible
March 21, 2018 - Myelodysplastic syndrome: MedlinePlus Medical Encyclopedia
March 21, 2018 - Research reveals brain mechanism involved in language learning
March 21, 2018 - Many parents still hesitate to try early peanut introduction, survey finds
March 21, 2018 - Audiologist urges tinnitus sufferers facing ‘revolving door healthcare’ to seek support
March 21, 2018 - Study reveals impact of prostate cancer on wives and partners of sufferers
March 21, 2018 - ‘Almost a Miracle Drug’: What We Heard This Week
March 21, 2018 - Study shows NIH spent >$100 billion on basic science for new medicines
March 21, 2018 - Columbia researchers identify nerve cells that drive fruit fly’s escape behavior
March 21, 2018 - Sartorius Stedim Biotech selected by ABL Europe to supply single-use process technologies
March 21, 2018 - Increase in coffee consumption may help battle against colon cancer
March 21, 2018 - Hydrogel may accelerate healing of diabetic ulcers
March 21, 2018 - Dermira’s Two Phase 3 Trials Evaluating Olumacostat Glasaretil in Patients with Acne Vulgaris Did Not Meet Co-Primary Endpoints
March 21, 2018 - DePuy Synthes introduces ACTIS Total Hip System for improving initial implant stability
March 21, 2018 - ‘Oh, It Was Nothing’
March 21, 2018 - Herbal drug kratom linked to salmonella illnesses, CDC says
March 21, 2018 - New optical point-of-care device could enhance screening for thyroid nodules
March 21, 2018 - FDA Expands Approval of Adcetris (brentuximab vedotin) for First-Line Treatment of Stage III or IV Classical Hodgkin Lymphoma in Combination with Chemotherapy
March 21, 2018 - Eosinophilic Esophagitis: Late Manifestation of Allergic March
March 21, 2018 - Signaling pathway involving the Golgi apparatus identified in cells with Huntington’s disease
March 21, 2018 - Quintupling inhaled steroid doses may not benefit children with asthma
March 21, 2018 - Study shows clear connection between cardiovascular fitness in middle age and dementia risk
March 21, 2018 - Premature babies have higher risks of health complications in Bangladesh
March 21, 2018 - Child’s temperament and parenting influence weight gain in babies
March 21, 2018 - Researchers find the heart to be capable of arrhythmia termination after local gene therapy
March 21, 2018 - Inhealthcare to provide digital infrastructure for NHS to help protect people from falls
March 21, 2018 - Flu Season Finally Slowing Down
March 21, 2018 - Mixed Results for Shorter DAPT in ACS Patients
March 21, 2018 - Scientists discover fish scale-derived collagen effective for healing wounds
March 21, 2018 - Genomics England announces new partnership to improve efficiency of next-generation sequencing analysis
March 21, 2018 - Adjuvant AC chemotherapy found to be effective in treating HRD-positive breast cancer patients
March 21, 2018 - Researchers identify new treatment targets for lung diseases using big data
March 21, 2018 - Kids see more women in science than five decades ago
March 21, 2018 - Research shows link between chronic fatigue syndrome and lower thyroid hormone levels
March 21, 2018 - Alzheimer’s disease on the rise
March 21, 2018 - Two Agents Equal as Pretreatment for Adrenal Tumor Surgery
March 21, 2018 - ‘Icebreaker’ protein opens genome for T cell development, researchers find
March 21, 2018 - Women in medicine shout #Metoo about sexual harassment at work
March 21, 2018 - Mother’s pre-pregnancy waist size may be linked to child’s autism risk
March 21, 2018 - Second hand marijuana smoke can cause serious damage
March 21, 2018 - International study shows benefits of using MRI at the start of prostate cancer diagnosis
March 20, 2018 - Santhera Reports Outcome of Exploratory Trial with Idebenone in PPMS Conducted at the NIH
March 20, 2018 - ECG Patch Ups At-Home Afib Diagnosis in mSToPS Trial
March 20, 2018 - ROS-scavenging nanozymes for anti-inflammation therapeutics
March 20, 2018 - Genomics England announces appointment of global genomics pioneer as first CEO
March 20, 2018 - Test flight at German Aerospace Center in Cologne demonstrates functionality of deficopter
March 20, 2018 - Music therapy helps treat combat-related psychological injuries in military personnel
March 20, 2018 - Innovative psychotherapeutic treatment protocol for obsessive-compulsive disorders
March 20, 2018 - Weight loss after lap-band surgery alleviates arthritic knee pain
March 20, 2018 - New diabetes drug may help obese people shed body weight
March 20, 2018 - Novel Peanut OIT a Winner in Phase III Trial
March 20, 2018 - Can gene therapy be harnessed to fight the AIDS virus?
March 20, 2018 - Education and academic achievement can lessen effects of child abuse, neglect
March 20, 2018 - Researchers develop new algorithm to make CPR more effective
March 20, 2018 - Diabetes medication reduces chance of late miscarriage, premature birth among women with PCOS
March 20, 2018 - SSRIs may be more effective option for treating anxious youth, UC research shows
March 20, 2018 - Antibiotics could benefit women suffering from chronic bladder pain
March 20, 2018 - Health Highlights: March 16, 2018
March 20, 2018 - Interventional Radiology Has a Problem of ‘Unseen’ Value
March 20, 2018 - Antibodies show effectiveness for HIV prevention and promise for treatment and cure
March 20, 2018 - New 3-D-printed technology will improve radiology training
March 20, 2018 - New study identifies key role for particular gene in 16p11.2 deletion syndrome
March 20, 2018 - Red and processed meat increase the risk of liver disease
March 20, 2018 - 50% of Australians do not brush teeth twice a day
March 20, 2018 - American Gene Technologies receives second immuno-oncology patent
March 20, 2018 - Study finds no link between long-term violent video game play and adult aggression
March 20, 2018 - Weight loss surgery widely underutilized among young patients with severe obesity
March 20, 2018 - Scientists uncover new answers to cell aging in children with rare, fatal disease
March 20, 2018 - The Pistoia Alliance Calls for Greater Life Sciences Collaboration to Build the ‘Lab of the Future’
March 20, 2018 - Morning Break: Psychopathic Thought; Americans Flout Zzz’s; Farm to Pharma
March 20, 2018 - Perceptions of old age change as we age
March 20, 2018 - New standards for public involvement in research launched across the UK
March 20, 2018 - Whole Genome Sequencing used as diagnostic solution for TB
March 20, 2018 - Researchers show how two cancer genes work together to trigger leukemia
March 20, 2018 - Scientists discover basic molecular mechanism that helps understand how ALS works
March 20, 2018 - Multi-center study to evaluate promising new intervention for upper limb dysfunction after SCI
March 20, 2018 - Researchers develop technology to program DNA for delivering cancer drugs
March 20, 2018 - Northwestern scientists bring precision medicine to rheumatoid arthritis
March 20, 2018 - Research suggests possible link between heading a soccer ball and brain imbalance
Scientists describe the mechanism of heart regeneration in the zebrafish

Scientists describe the mechanism of heart regeneration in the zebrafish

image_pdfDownload PDFimage_print
Section through a zebrafish heart after injury. Cardiomyocytes of the external heart wall are shown in blue. The regenerated tissue visible at the bottom of the image contains some green-stained cardiomyocytes, indicating their origin in the internal part of the heart (red) and their conversion to cells of the myocardial wall. Credit: CNIC

Some animals, including the zebrafish, have a high capacity to regenerate tissues, allowing them to recovery fully after cardiac injury. During this process, the heart muscle cells divide to replace the damaged tissue. However, there has been uncertainty about whether all cells contribute equally to the reconstruction of the heart wall. Now, a team of scientists led by Nadia Mercader at the Centro Nacional de Investigaciones Cardiovasculares Carlos III (CNIC) and the University of Bern (Switzerland), working with collaborators at the University of Zurich (Switzerland), have discovered a high level of plasticity among the cells of the zebrafish heart muscle. The study is published in Nature Communications.

After a heart attack, the human heart loses millions of cardiomyocytes, the cells that form the muscle wall. In contrast, other animal species have a high regenerative capacity, enabling them to replace the injured myocardium with new cardiomyocytes. One such species is the zebrafish (Danio rerio). According to first author Héctor Sánchez-Iranzo, the zebrafish “is a widely used model system in cardiovascular research into the mechanisms controlling regeneration, and an inspiration for attempts to develop future regenerative therapies.”

The ability of the zebrafish heart to reestablish its function after injury depends on the capacity of its cardiomyocytes to divide and repopulate the infarcted area, thus eliminating the damaged tissue. Unfortunately, the hearts of most animals, including humans, are unable to activate this process, and therefore after an infarction the human heart cannot regenerate the lost muscle, which is replaced by non-functional scar tissue.

Cell plasticity

Before the new study, scientists did not know if all cardiomyocytes in the zebrafish heart shared the same regenerative ability or if they were equally able to regenerate all zones of the heart muscle. Cell plasticity, the ability of cells to convert themselves into another cell type, is frequently observed during embryonic development, but has never before been reported during tissue regeneration in an adult organism.

In the study, the authors investigated two types of cardiomyocyte, one localized in the innermost heart regions, the trabeculae, and the other in the exterior heart wall. Scientists had presumed that during regeneration each cardiomyoctye population would give rise only to the same specialized cell type. But the CNIC study shows that cardiomyocytes from the trabeculae can contribute to the regeneration of the external heart wall. The researchers conclude that their results “reveal a high level of plasticity among zebrafish cardiomyocytes and that there is more than one way to rebuild a damaged heart.”

Explore further:
Cardiomyocytes fuse when the heart grows and regenerates

More information:
Héctor Sánchez-Iranzo et al, Tbx5a lineage tracing shows cardiomyocyte plasticity during zebrafish heart regeneration, Nature Communications (2018). DOI: 10.1038/s41467-017-02650-6

Journal reference:
Nature Communications

Provided by:
Centro Nacional de Investigaciones Cardiovasculares

Tagged with:

About author

Related Articles