PRESS-NEWS.org - Press Release Distribution
PRESS RELEASES DISTRIBUTION

The world is not flat: Exploring cells and tissues in three dimensions

The world is not flat: Exploring cells and tissues in three dimensions
2010-10-20
(Press-News.org) The cells and tissues in our bodies grow, develop and interact in a highly complex, three-dimensional world. Likewise, the various microbial pathogens that invade our bodies and cause infectious disease interact with this complex 3-D tissue milieu. Yet the methods of culturing and studying human cells have traditionally been carried out in two dimensions on flat impermeable surfaces. While such 2-D culturing and modeling efforts have produced a steady stream of critical insight into cell behavior and the mechanisms of infection and disease, 2-D cell cultures have key limitations in terms of accurately reproducing the tissue environment in vivo, that is, the environment found within a living organism.

In the current issue of the journal Nature Reviews Microbiology, researcher Cheryl Nickerson and her team at the Biodesign Institute at Arizona State University highlight an innovative approach for studying cells in 3-D. They are examining the potential of such research to greatly expand science's understanding of disease onset and progression, particularly the responses of host cells to infectious pathogens. Such work provides fresh insight into the mechanisms of infectious disease and holds the potential for the design of novel or improved therapeutics, more accurate drug screening and improved evaluation of potential vaccine candidates.

Despite enormous progress in understanding how infectious pathogens successfully evade the immune system and cause disease, and the successful treatment or eradication of some of these deadly illnesses; infectious diseases remain a huge health and economic burden, particularly in the developing world. They continue to cause roughly 35 percent of all fatalities worldwide, killing some 14-17 million people annually. Many of these deaths could be prevented through the development of in vitro models of human cells and tissues that better mimic in vivo environments.

Before the advent of 3-D culturing methods, human cells used for research were typically grown on flat surfaces (often composed of treated polystyrene or glass), resulting in the growth of 2-D cell sheets known as monolayers. However, isolating cells from their 3-D architecture and native microenvironment comes at a price. As Jennifer Barrila, one of the lead authors of this review explains, "we know that if you take a biopsy from a tissue, homogenize it and plate it on a flat surface and follow its growth, it's going to immediately de-differentiate and start losing a lot of the features and functions that it normally has in the body, because it is no longer in that characteristic 3-D shape. "

A number of innovative techniques now exist to establish 3-D cell culture models that are better able to mimic the in vivo characteristics of cells and tissues in the body. The current review focuses on using one such promising technology that was originally developed by NASA engineers to simulate aspects of the microgravity environment encountered by cells cultured during spaceflight.

This technology, known as a rotating wall vessel bioreactor or RWV, is a cylindrical, rotating apparatus, filled with a culture medium supplying essential nutrients to the cells. The natural sedimentation of cells due to gravity is balanced by the bioreactor's rotation, resulting in a gentle falling of cells within the media in the chamber. During culture, the cells are attached to porous microcarrier beads (or other scaffolding) which allows for cellular responses to chemical and molecular gradients in three dimensions in a manner closely mimicking the conditions encountered by tissues in vivo. Under these conditions, the cells will aggregate to form 3-D tissue-like structures.

The cell culture environment within the RWV bioreactor is also designed to replicate natural, physiologically relevant conditions of low fluid shear found in the body. Fluid shear is the mechanical force exerted by the movement of fluids over cell surfaces and has been found to play an important role in cellular differentiation, development and function. Intriguingly, experimental research carried out by Nickerson and her team has implicated low-fluid shear environments in regulating the infectious disease potential of certain human pathogens. Specifically, conditions encountered by pathogens in certain areas of the gastrointestinal, respiratory and urogenital tracts represent low fluid shear environments that have the potential to alter the outcome of the infectious disease process.

Over the past decade, the Nickerson group and colleagues have published their 3-D models of the small and large intestine, lung, placenta, neuronal tissue and vaginal epithelium. Such models offer exciting new insights into cell proliferation, differentiation and immune function, and are providing a platform to understand normal tissue homeostasis and transition to disease. Furthermore, these 3-D models have also unveiled new ways that pathogens cause disease and have expanded the range of pathogens that can be studied in vitro. Essential to this line of research, 3-D models respond to infection in important ways that mimic the infected host.

These studies include infection of 3-D intestinal tissues by food-borne bacterial and viral pathogens including Salmonella typhimurium and norovirus, respectively, and infection of 3-D lung tissues by the bacterial pathogen Pseudomonas aeruginosa. Nickerson stresses that 3-D tissue modeling has opened the door to examining a variety of host-pathogen interactions that were previously difficult or impossible to study through conventional means.

Nickerson also sees a promising future for 3-D cell cultures in facilitating the translation of basic science to the clinical setting. She emphasizes that the development and use of a series of increasingly complex 3-D model systems that incorporate multiple cell types will enable the study of a broad range of human diseases, including those caused by infection and genetic disorders like cancer. Moreover, the incorporation of these models as surrogates for human tissues in the early stages of the drug design process can potentially aid in reducing the number of inadequate drug candidates that enter into clinical trials by providing in vitro models that are more predictive of in vivo responses, thereby reducing the time and cost of getting a therapeutic to market.



INFORMATION:

The research for the group's review was carried out by lead co-authors Jennifer Barrila and Andrea Radtke, along with Shameema Sarker and Aurélie Crabbe of the Nickerson group, Melissa M. Herbst-Kralovetz at the Biodesign Institute, and C. Mark Ott at the NASA Johnson Space Center.

In addition to her position at Biodesign Institute's Center for Infectious Diseases and Vaccinology, Cheryl Nickerson is associate professor of life sciences at Arizona State University's School of Life Sciences.

Written by Richard Harth
Biodesign Institute at ASU
Science Writer
richard.harth@asu.edu

[Attachments] See images for this press release:
The world is not flat: Exploring cells and tissues in three dimensions

ELSE PRESS RELEASES FROM THIS DATE:

Alcohol increases reaction time and errors during decision making

2010-10-20
There has been an abundance of research on the effects of alcohol on the brain, but many questions regarding how alcohol impairs the built-in control systems are still unknown. A new study released in the January 2011 issue of Alcoholism: Clinical & Experimental Research, which is currently available at Early View, explores that subject in detail and found that certain brain regions involved in error processing are affected more by alcohol than others. According to Beth Anderson, a postdoctoral fellow at the Olin Neuropsychiatry Research Centre at Hartford Hospital in ...

Fetal alcohol exposure associated with a decrease in cognitive performance

2010-10-20
Exposure to alcohol as a fetus has been shown to cause difficulties in memory and information processing in children New findings indicate that visual perception, control of attention and demand processing may be involved in fetal alcohol-related learning problems This information could potentially be used to help children affected with such difficulties It has been known for many years that drinking alcohol while pregnant can cause serious and irreversible damage to the fetus. However, new research exploring memory deficits in children diagnosed with fetal alcohol ...

Heavy alcohol use suggests a change in normal cognitive development in adolescents

2010-10-20
Adolescence and puberty is a period of significant development in the brain New findings indicate that excessive alcohol use selectively damages the frontal lobe, which is responsible for the development of social skills and judgment This indicates that severe alcohol abuse may damage brain function, and the normal course of neural development in adolescents Alcohol, to an adolescent, is often seen as a rite of passage. Many teenagers view alcohol (as well as other drugs) as a gateway to adulthood, but are often blissfully unaware of the damage that it can cause ...

CYP2E1 gene found to be associated with alcohol response in the brain

2010-10-20
The gene CYP2E1, which is located on the terminal region of chromosome 10, plays a major role in the metabolic processing of alcohol New findings show that this gene is linked with a low sensitivity to alcohol and increased risk for alcoholism CYP2E1 could therefore be used as a predictor for those who are at risk for alcoholism The research into how alcohol reacts with the brain is a complex one, and has been relentlessly studied for many years. But a new study has shown, through linkage and association analysis on various family groups, that a gene originally ...

New vision correction options for baby boomers

2010-10-20
CHICAGO— Results of clinical research on new presbyopia treatments now available in Europe–and possibly available soon in the United States–were reported in today's Scientific Program of the 2010 Joint Meeting of the American Academy of Ophthalmology (AAO) and Middle East-Africa Council of Ophthalmology (MEACO). The AAO-MEACO meeting is the world's largest, most comprehensive ophthalmic education conference and is in session October 16 through 19 at McCormick Place, Chicago. Presbyopia is Inevitable, but Blurry Vision is Not From age 40 onward our eyes' lenses gradually ...

Cataract surgery saves lives, dollars by reducing auto crashes

2010-10-20
CHICAGO—Cataract surgery not only improves vision and quality of life for older people, but is also apparently a way to reduce the number of car crashes. The research will be presented today's at the Scientific Program of the 2010 American Academy of Ophthalmology (AAO) – Middle East-Africa Council of Ophthalmology (MEACO) Joint Meeting. Cataract surgery not only improves vision and quality of life for older people, but is also apparently a way to reduce the number of car crashes. The research will be presented today's at the Scientific Program of the 2010 American Academy ...

Photovoltaic medicine

2010-10-20
WASHINGTON, D.C., (Oct. 19, 2010) -- Micro-scaled photovoltaic devices may one day be used to deliver chemotherapeutic drugs directly to tumors, rendering chemotherapy less toxic to surrounding tissue. "In the first step, we were able to prove the concept," says Tao Xu, Ph.D., an assistant professor at the University of Texas in El Paso. Xu and his colleagues will present their findings today at the AVS 57th International Symposium & Exhibition, which takes place this week at the Albuquerque Convention Center in New Mexico. Currently, chemotherapeutic drugs are piped ...

Atomic-level manufacturing

2010-10-20
WASHINGTON, D.C., (Oct. 19, 2010) -- The long-held dream of creating atomically precise three-dimensional structures in a manufacturing environment is approaching reality, according to the top scientist at a company making tools aimed at that ambitious goal. John Randall, Vice President of Zyvex Labs in Richardson, Tex., says his researchers have demonstrated a process that uses a scanning tunneling microscope tip to remove protective surface hydrogen atoms from silicon one at a time and then adds single atomic layers of silicon only to those meticulously cleared areas. ...

Nanotube thermopower

2010-10-20
WASHINGTON, D.C., (Oct. 19, 2010) -- When weighing options for energy storage, different factors can be important, such as energy density or power density, depending on the circumstances. Generally batteries -- which store energy by separating chemicals -- are better for delivering lots of energy, while capacitors -- which store energy by separating electrical charges -- are better for delivering lots of power (energy per time). It would be nice, of course, to have both. Today at the AVS 57th International Symposium & Exhibition, which takes place this week at the Albuquerque ...

Batteries smaller than a grain of salt

2010-10-20
WASHINGTON, D.C., (Oct. 19, 2010) -- Lithium-ion batteries have become ubiquitous in today's consumer electronics -- powering our laptops, phones, and iPods. Research funded by DARPA is pushing the limits of this technology and trying to create some of the tiniest batteries on Earth, the largest of which would be no bigger than a grain of sand. These tiny energy storage devices could one day be used to power the electronics and mechanical components of tiny micro- to nano-scale devices. Jane Chang, an engineer at the University of California, Los Angeles, is designing ...

LAST 30 PRESS RELEASES:

Long COVID brain fog linked to lung function

Concussions slow brain activity of high school football players

Study details how cancer cells fend off starvation and death from chemotherapy

Transformation of UN SDGs only way forward for sustainable development 

New study reveals genetic drivers of early onset type 2 diabetes in South Asians 

Delay and pay: Tipping point costs quadruple after waiting

Magnetic tornado is stirring up the haze at Jupiter's poles

Cancers grow uniformly throughout their mass

Researchers show complex relationship between Arctic warming and Arctic dust

Brain test shows that crabs process pain

Social fish with low status are so stressed out it impacts their brains

Predicting the weather: New meteorology estimation method aids building efficiency

Inside the ‘swat team’ – how insects react to virtual reality gaming 

Oil spill still contaminating sensitive Mauritius mangroves three years on

Unmasking the voices of experience in healthcare studies

Pandemic raised food, housing insecurity in Oregon despite surge in spending

OU College of Medicine professor earns prestigious pancreatology award

Sub-Saharan Africa leads global HIV decline: Progress made but UNAIDS 2030 goals hang in balance, new IHME study finds

Popular diabetes and obesity drugs also protect kidneys, study shows

Stevens INI receives funding to expand research on the neural underpinnings of bipolar disorder

Protecting nature can safeguard cities from floods

NCSA receives honors in 2024 HPCwire Readers’ and Editors’ Choice Awards

Warning: Don’t miss Thanksgiving dinner, it’s more meaningful than you think

Expanding HPV vaccination to all adults aged 27-45 years unlikely to be cost-effective or efficient for HPV-related cancer prevention

Trauma care and mental health interventions training help family physicians prepare for times of war

Adapted nominal group technique effectively builds consensus on health care priorities for older adults

Single-visit first-trimester care with point-of-care ultrasound cuts emergency visits by 81% for non-miscarrying patients

Study reveals impact of trauma on health care professionals in Israel following 2023 terror attack

Primary care settings face barriers to screening for early detection of cognitive impairment

November/December Annals of Family Medicine Tip Sheet

[Press-News.org] The world is not flat: Exploring cells and tissues in three dimensions