CDX Models

Cell line-derived xenograft (CDX) models are a cornerstone of oncology drug development, offering a robust and reproducible platform to evaluate the in vivo efficacy of anti-cancer therapies. By implanting well-characterized human tumor cell lines into immunocompromised mice, CDX models allow researchers to assess tumor growth inhibition, dosing strategies, and preliminary pharmacodynamic responses in a controlled and scalable system. These models are particularly valuable for early-stage screening and proof-of-concept studies due to their consistency and ease of use. MuriPhys is well equipped to support CDX studies with dedicated expertise in tumor implantation (subcutaneous, orthotopic), precise IV/IM/SC drug administration, and longitudinal tumor monitoring using caliper measurements and advanced in vivo imaging. Our experienced team, state-of-the-art facilities, and commitment to scientific rigor make MuriPhys an ideal partner for conducting high-quality CDX studies that advance oncology pipelines toward the clinic.

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Below is a list of available models commonly used by MuriPhys researchers:

Solid Tumor Xenograft Models

Brest Cancer

MDA-MB-231 (TNBC, highly metastatic)

MCF-7 (ER+, PR+, luminal A subtype)

T47D (ER+, PR+, luminal B subtype)

Non-Small Cell Lung Cancer (NSCLC)

A549 (KRAS mutant, adenocarcinoma)

H1975 (EGFR T790M mutant, resistant to 1st-gen TKIs)

H1299 (p53-null, metastatic potential)

Colorectal Cancer

HCT116 (KRAS mutant, MSI+)

SW620 (metastatic colorectal cancer model)

HT-29 (BRAF V600E mutant, chemoresistant)

Pancreatic Cancer

PANC-1 (KRAS mutant, mesenchymal phenotype)

MiaPaCa-2 (KRAS mutant, p53 mutant, highly aggressive)

AsPC-1 (metastatic potential)

Brain Tumor

U87MG (glioblastoma, limited invasion capacity)

U251 (astrocytoma-derived, high proliferation)

DAOY (medulloblastoma, pediatric brain cancer)

Prostate Cancer

LNCaP (androgen-sensitive, PSA-producing)

DU145 (androgen-independent, metastatic potential)

PC-3 (highly aggressive, androgen receptor-negative)

Hematologic Cancer Xenograft Models

Leukemia Xenograft Models

Acute Myeloid Leukemia (AML)

• MV4-11 (FLT3-ITD mutant)
• HL-60 (differentiation-sensitive, ATRA-responsive)
• KG-1 (primitive leukemic stem cell-like)

Acute Lymphoblastic Leukemia (ALL)

• Nalm-6 (B-ALL, p53 wild-type)
• MOLT-4 (T-ALL, highly proliferative)

Chronic Myeloid Leukemia (CML)

• K562 (BCR-ABL1 fusion, imatinib-sensitive)

Lymphoma Xenograft Models

Diffuse Large B-Cell Lymphoma (DLBCL)

• SU-DHL-4 (ABC subtype, NF-κB pathway activation)
• OCI-LY3 (activated B-cell-like, MYD88 mutant)

Hodgkin Lymphoma (HL) Models

• L428 (classical HL, CD30+)
• KM-H2 (brentuximab vedotin-sensitive)

Multiple Myeloma Xenograft Models

• MI-8226 (bortezomib-sensitive, IgG lambda secretion)
  

Advanced Drug Administration & Serial Injections

We specialize in the following routes of administration:

Intravenous (IV), Intramuscular (IM), Subcutaneous (SC), Intrathecal (IT), Intra Peritoneal (IP), Oral Gavage (PO), Topical, Slow-infusion and Continuous Infusions – Ensuring accurate systemic or localized therapeutic exposure.

Serial Injections – Enabling longitudinal drug administration studies to monitor treatment effects over time.

Quality Control: Mycoplasma Testing

To ensure the highest standards in preclinical research, all cell lines used in our studies undergo rigorous mycoplasma testing, preventing contamination and ensuring reliable, reproducible results.

At MuriPhys, we are dedicated to accelerating oncology drug discovery with cutting-edge preclinical solutions. Contact us today to discuss how we can support your oncology research!

Partner with Us to Advance Your Oncology Research
By choosing our comprehensive services, you gain a trusted partner committed to de-risking your projects and accelerating your path to clinical success. Contact us today to discover how we can empower your oncology research and help bring innovative therapies to patients faster.