A promising antibody
Acute lymphoblastic leukaemia (ALL) is the most common cancer in children. This form of blood cancer is caused by malignant abnormal precursor cells of certain white blood cells, and usually leads to a rapidly progressive reduction of bone marrow function, and thus impaired blood formation.
If left untreated, it quickly leads to death. Despite the severity of the disease, in many cases children today have good chances of survival and being cured. The current standard treatment consists of various forms of chemotherapy, but these cause severe side-effects because of their toxic effect on healthy cells, too.
In addition, a certain proportion of the young patients – about 15 to 20 percent – do not respond to treatment in a sustained manner. Scientists from the Faculty of Medicine at Kiel University (CAU) and the Department of Pediatric and Adolescent Medicine I at the University Medical Center Schleswig-Holstein (UKSH) Campus Kiel are therefore exploring alternative forms of treatment, in particular different variants of immunotherapy.
In a recent preclinical study, they examined the antibody daratumumab, which has already proven successful against another type of cancer. They hoped for a possible suitability to combat blood cancer cells in a subtype of ALL, the so-called T-cell ALL (T-ALL).
To date, there is no form of immunotherapy for this type of the disease. In model experiments, a complete removal of the cancer cells was achieved in around 50 percent of the cases. Together with their partner research institutions nationwide, the Kiel scientists recently published their latest research results in the renowned scientific journal Blood.
Preclinical model experiments show promising results
In the exploration of new forms of treatment against cancer, immunotherapy with antibodies is among those which show promising potential. This treatment uses artificially produced antibodies, i.e. specific synthetic proteins which work according to the lock-and-key principle. Under certain circumstances, they can help cells of the immune system to recognise and destroy cancer cells.
However, in many cases the exploration of the associated treatment options is still in an early stage. PD Dr Denis Schewe, senior physician for hematology, oncology and stem cell transplantation at the Department of Pediatric and Adolescent Medicine at the UKSH, and his research team carried out fundamental combination experiments on mice using the antibody daratumumab to test for possible effectiveness against T-ALL cancer cells. In doing so, they also compared antibody treatment alone with a combination of antibody and chemotherapy.
“We were able to report initial promising results: half of the animals treated with the antibody showed long term survival, without any signs of disease,” explained the Kiel pediatric oncologist Schewe.
It made no difference whether they were treated with the antibody only, or with a combination of chemotherapy and immunotherapy. “The chemotherapy, with its serious side-effects, achieved no improvement, and in the case of our model experiment brought no additional benefits,” said Schewe. However, these experimental results are in no way directly transferable to patients. “Therefore, in the further development of antibody treatment for T-ALL, we must continue to investigate in all directions,” emphasised Schewe.
Translational focus of Kiel’s oncology
The research activities in Kiel’s pediatric oncology are a good example of how fundamental and clinical research cooperate through the Kiel Oncology Network (KON) established at the CAU. For example, KON member Schewe worked closely with Dr Mildred-Scheel-Haus on a recent study at the USKH.
With its Division of Stem Cell Transplantation and Immunotherapy, it also provides treatment for leukaemia patients. “Our goal is to further optimise the antibody treatment for T-ALL. In the middle of the year, we were able to raise significant funding from the Deutsche Krebshilfe e.V. (German Cancer Aid) for this purpose,” said Schewe.
“Dr Schewe’s research on the possibilities of immunotherapy for blood cancers are a good example of the strong translational orientation of our network. The intensive interdisciplinary exchange between researchers, the clinic and researching physicians will also help to develop improved treatment options in the fight against other cancer types in future,” emphasised Professor Susanne Sebens from the Institute of Experimental Cancer Research at the CAU and spokesperson of the Kiel Oncology Network.
About the Kiel Oncology Network (KON)
The KON was established in 2013 as part of the CAU’s priority research area Kiel Life Science, with the goal of linking the research activities of as many basic and clinically-orientated oncology researchers as possible, and promoting cooperation between them.
As such, KON incorporates a broad spectrum of long-term and excellent expertise in oncology, including tumour biology, genetics and epigenetics, immunology, pharmacology, pathology, structural biology as well as modern medical imaging. KON's vision is to gain a significantly better understanding of all the important steps in tumour evolution, as well as resistance mechanisms to cancer treatment, by using comprehensive and multidisciplinary analysis strategies.
This knowledge could provide a basis for the development of innovative diagnosis and treatment strategies, to decisively improve the prognosis for and survival of cancer patients.
Photos are available for download at:
Caption: Tested the antibody daratumumab for possible effectiveness against T-ALL cancer cells: PD Dr Denis Schewe, Dr Fotini Vogiatzi und Dr Lennart Lenk (left to right).
© Christian Urban, Kiel University
Caption: Macrophages, scavenger cells of the immune system, devour tumor cells (colored in green).
© Dr Fotini Vogiatzi
Science communication “Kiel Life Science”, Kiel University:
Tel.: +49 (0)431-880-1974
Department of Pediatric and Adolescent Medicine I
Faculty of Medicine, Kiel University / UKSH:
Kiel Oncology Network, Faculty of Medicine, Kiel University:
Division of Stem Cell Transplantation and Immunotherapy,
Dr Mildred-Schweel-Haus, UKSH
PD Dr Denis Schewe
Senior physician for hematology, oncology,
stem cell transplantation
Department of Pediatric and Adolescent Medicine I
Faculty of Medicine, Kiel University / UKSH
Tel.: +49 (0)431 500-20140
Fotini Vogiatzi, Dorothee Winterberg, Lennart Lenk, Swantje Buchmann, Gunnar Cario, Martin Schrappe, Matthias Peipp, Paulina Richter-Pechanska, Andreas E Kulozik, Jana Lentes, Anke K Bergmann, Thomas Valerius, Fabian Simon Frielitz, Christian Kellner and Denis M Schewe (2019): Daratumumab eradicates minimal residual disease in a preclinical model of pediatric T-cell acute lymphoblastic leukemia. Blood
Alle Nachrichten aus der Kategorie: Life Sciences
Articles and reports from the Life Sciences area deal with applied and basic research into modern biology, chemistry and human medicine.
Valuable information can be found on a range of life sciences fields including bacteriology, biochemistry, bionics, bioinformatics, biophysics, biotechnology, genetics, geobotany, human biology, marine biology, microbiology, molecular biology, cellular biology, zoology, bioinorganic chemistry, microchemistry and environmental chemistry.
Smart sensors for future fast charging batteries
European project “Spartacus” launched Faster charging, longer stability of performance not only for electric vehicles but also for smartphones and other battery powered products. What still sounds like science fiction…
Small molecules control bacterial resistance to antibiotics
Antibiotics have revolutionized medicine by providing effective treatments for infectious diseases such as cholera. But the pathogens that cause disease are increasingly developing resistance to the antibiotics that are most…