Ex vivo human multiple myeloma cancer niche and its use as a model for personalized treatment of multiple myeloma

摘要

The described invention provides an ex vivo dynamic multiple myeloma (MM) cancer niche contained in a microfluidic device. The dynamic MM cancer niche includes (a) a three-dimensional tissue construct containing a dynamic ex vivo bone marrow (BM) niche, which contains a mineralized bone-like tissue containing viable osteoblasts self-organized into cohesive multiple cell layers and an extracellular matrix secreted by the viable adherent osteoblasts; and a microenvironment dynamically perfused by nutrients and dissolved gas molecules; and (b) human myeloma cells seeded from a biospecimen composition comprising mononuclear cells and the multiple myeloma cells. The human myeloma cells are in contact with osteoblasts of the BM niche, and the viability of the human myeloma cells is maintained by the MM cancer niche.

主权项

1. A method for assessing chemotherapeutic efficacy of a test chemotherapeutic agent on viable human multiple myeloma cells seeded in an ex vivo microenvironment effective to recapitulate spatial and temporal characteristics of a multiple myeloma cancer niche and to maintain viability of the myeloma cells (MM cancer niche); obtained from a subject comprising:
a. preparing an in vitro microfluidic device comprising
1. a culture chamber comprising a first well region including a first well and a second well region including a second well; each well defined by a through-hole in top and by an upper surface U; and2. a channel region comprising at least one channel originating at an input port and terminating at an output port comprising first and second vertical portions interconnected by and communicating with a horizontal portion of the channel,
wherein the channel connects the first well region and the second well region with one another, wherein the first well is adapted to receive a test agent, the second well is adapted to receive a biological sample of cells, and liquids, nutrients and dissolved gas molecules flow through the channel; b. constructing an ex vivo bone marrow microenvironment perfused by nutrients and dissolved gas molecules (bone marrow niche) by
1. Seeding a surface of the culture chamber of the in vitro microfluidic device of (a) with a population of cells comprising osteoblasts;2. Culturing the cells with a culture medium through the channel region for a time effective for the cells to form a confluent layer on the bottom surface of the channel, to then form multiple cell layers and to then form 3D nodular structures that comprise a 3D bone-like tissue;
The 3D bone like tissue being characterized by a mineralized bone-like tissue comprising (a) viable osteoblasts self-organized into cohesive multiple cell layers and (b) an extracellular matrix secreted by the viable adherent osteoblasts; c. preparing a multiple myeloma tumor biospecimen composition by:
(1) acquiring a multiple myeloma tumor biospecimen from the subject, wherein the biospecimen comprises viable multiple myeloma cells; and(2) adding plasma autologous to the subject to the viable multiple myeloma cells;(3) bringing the biospecimen composition of c (2) comprising viable MM cells in contact with the osteoblasts of the ex vivo bone marrow microenvironment perfused by nutrients and dissolved gas molecules to seed the ex vivo bone marrow microenvironment with the viable MM cells, the ex vivo bone marrow microenvironment perfused by nutrients and dissolved gas molecules and the seeded MM cells in contact with the osteoblasts of the ex vivo bone marrow microenvironment forming an ex vivo microenvironment effective to recapitulate spatial and temporal characteristics of a multiple myeloma cancer niche and to maintain viability of the human MM cells (MM cancer niche); and d. testing chemotherapeutic efficacy of a chemotherapeutic agent on the viable human MM cells maintained in the ex vivo MM cancer niche of c (3) in the test chamber of (a) by
(1) contacting the ex vivo MM cancer niche comprising viable human myeloma cells with a test chemotherapeutic agent(2) comparing at least one of viability and level of apoptosis of the MM cells in the MM cancer niche in the presence of the test chemotherapeutic agent to an untreated control; and e. initiating therapy to treat the MM in the patient with the test chemotherapeutic agent if the test chemotherapeutic agent is effective to significantly (P<0.05) reduce viability of the MM cells or to increase apoptosis of the MM cells, compared to the untreated control.