Johns Hopkins is viewing cell behavior in three dimensions (3D)

[gdpawel]

The evolutionary nature of cancer implies that the required target for the consistent and specific cure or control of cancer is the set of all malignant cells that could evolve. Targeting a lesser set will fail. It will act as a selective pressure that changes the course, but not the flow of tumor cell evolution.

The consistent and specific cure or control of cancer will require developing a set of drugs, given in combination, targeted to patterns of normal cellular machinery related to proliferation and invasiveness.

A sufficient number of independent methods of cell killing must be employed so that it is too improbable for a cancer cell to evolve that can escape death or inactivation. It must examine every cell in the body and must do so for a prolonged period of time.

[gdpawel]

Semin Cancer Biol. 2005 Oct;15(5):365-77.

Three-dimensional tissue culture models in cancer biology.
Kim JB.

Ludwig Institute for Cancer Research, First Floor - Breast Cancer Laboratory, Department of Surgery, Royal Free and University College London Medical School, Charles Bell House, 67-73 Riding House Street, London W1W 7EJ, UK. jongbkim2001@yahoo.co.uk

Abstract

Three-dimensional (3D) tissue culture models have an invaluable role in tumour biology today providing some very important insights into cancer biology. As well as increasing our understanding of homeostasis, cellular differentiation and tissue organization they provide a well defined environment for cancer research in contrast to the complex host environment of an in vivo model. Due to their enormous potential 3D tumour cultures are currently being exploited by many branches of biomedical science with therapeutically orientated studies becoming the major focus of research. Recent advances in 3D culture and tissue engineering techniques have enabled the development of more complex heterologous 3D tumour models.

PMID: 15975824 PubMed

[gdpawel]

There are any number of variables that affect drugs. These include the rate of excretion of the drugs by the kidneys and liver, protein binding and a myriad of other biological factors.

Some anticancer drugs are actually pro-drugs: they need to be first activated in the liver before becoming biologically active. So in vitro testing must administer the active forms of these agents, not the pro-drug form that is given to patients.

In the body, these cells interact with and supported by other living cells, both malignant and non-malignant cells. That is why cell-death functional profiling assays study cancer cells in small clusters, or microspheroids.

Analysis of these microspheroids provides a snapshot of cancer's behavior within the human body and provides a more accurate representation of how cancer cells are likely to respond to treatment in the clinic.

It is crucial that there is no manipulation of isolated cancer cells to make them grow, which was an important point of distinction with earlier cell-growth assays.

Drs. Larry Weisenthal and Robert Nagourney adopted this concept and began applying the term microclusters.

Real-life cancers grow as a complex organism that includes both malignant and non-malignant components. It may include fibrous tissue, mesothelial cells, fibroblasts, endothelial cells, etc.

In order to exhibit its most characteristic behavior patterns, a cancer cell needs to be surrounded by a colony of other cells, both normal and malignant.

Human tumors represent micro-ecosystems composed of transformed cells, stroma, fibroblasts, vascular elements, extra-cellular protein matrices and inflammatory elements.

The behavior of human cancers and their reponse to therapy reflect the complex interplay between humoral, vascular, adhesion and cytokine-mediated events acting in concert.

Tumors are very complex organisms. Ignoring this complexity, most studies of human cancer in culture have focused upon individual tumor cells that have been removed from their complex microenvironoment.

Cells are routinely broken up by mechanical and enzymatic means, which alters their subsequent behavior. Some previous methods of assays limited their analysis only to isolated tumor cells and failed to incorporate the crucial contribution of non-tumorous elements to the cancer phenomenon.

When allowed to grow in vitro, living cancer cells develop into these tiny micro-spheroid clusters that form a complex biosystem in which each malignant cell reacts upon its fellow colonists in subtle but important ways.

Each of these microspheres contains all the complex elements of tumor biosytems that are found in the human body and which can impact clinical reponse.

Source: Nagourney RA, Kollin CA, Sommers B, Su Y-Z, Evans SS. Functional profiling of human tumors in primary culture: a platform for drug discovery and therapy selection, AACR abstract #1546, 2008