Berbamine / cycD1/CCND1 Cancer Research Results

BBM, Berbamine: Click to Expand ⟱
Features:

Berbamine — berbamine is a natural bisbenzylisoquinoline alkaloid with pleiotropic anticancer signaling activity. It is best classified as a plant-derived small-molecule natural product and investigational anticancer lead rather than an approved oncology drug. Standard abbreviation: BBM. It is chiefly isolated from Berberis species, especially Berberis amurensis, and has also been reported in other alkaloid-containing medicinal plants. The strongest mechanistic signal in cancer appears to be inhibition of CaMKIIγ-centered survival signaling, with downstream effects on c-Myc, STAT3, β-catenin, PI3K/Akt-related survival programs, apoptosis, and in some models ROS-linked stress responses. Clinical oncology translation remains limited; most evidence is preclinical, and formulation constraints have been noted because native berbamine has limited tumor-site exposure and short plasma persistence in vivo.

Primary mechanisms (ranked):

  1. Direct or functionally dominant inhibition of CaMKIIγ signaling, especially in leukemia stem/progenitor and MYC-driven settings
  2. Downregulation of c-Myc stability and associated survival programs
  3. Suppression of JAK/STAT3 and related stemness / inflammatory oncogenic signaling
  4. Inhibition of PI3K/Akt and MDM2-p53 survival signaling with promotion of apoptosis
  5. Induction of mitochondrial / caspase-linked apoptosis and cell-cycle arrest
  6. Context-dependent ROS elevation contributing to cytotoxic stress and drug sensitization
  7. Anti-migration / anti-invasion effects including EMT-related suppression in some solid-tumor models
  8. Clinical translation constraint from limited native exposure, short half-life, and dependence on formulation or derivative optimization

Bioavailability / PK relevance: Native berbamine appears PK-limited for systemic oncology use. Multiple papers describe short plasma half-life or poor tumor-site exposure as a practical limitation, which is one reason nanoparticle and derivative strategies have been pursued. I did not find a robust modern human PK package for parent berbamine suitable for quantitative clinical extrapolation; stronger PK data were easier to find for derivatives than for the native compound.

In-vitro vs systemic exposure relevance: Many mechanistic cancer studies use micromolar in-vitro concentrations, often around 5–20 μM and sometimes higher. That makes direct translation to achievable free systemic exposure uncertain for native berbamine. Mechanistic direction is plausible, but potency-to-exposure matching remains a major translational bottleneck unless formulation or structural optimization is used.

Clinical evidence status: Preclinical for cancer. Evidence includes cell culture and xenograft studies across leukemia and several solid tumors, plus medicinal-chemistry optimization work on derivatives. I did not find established randomized oncology trials or standard clinical deployment for cancer treatment.

Berbamine is a bisbenzylisoquinoline alkaloid, meaning it is composed of two benzylisoquinoline moieties. Its unique structure distinguishes it from many other natural alkaloids Berbamine is most often isolated from the plant Berberis, commonly known as barberry. Various species within this genus have been used in traditional Chinese medicine and other herbal traditions. plants in genera like Stephania have also been reported to contain bisbenzylisoquinoline alkaloids like berbamine. These plants are used in various parts of Asia both for their stimulant effects and other medicinal purposes.

Oxidative Stress:
Berbamine can increase the production of reactive oxygen species within cancer cells. Elevated ROS levels may push cancer cells beyond their threshold of tolerance, leading to oxidative stress–induced cell death. This property also ties in with its ability to modulate apoptosis and autophagy.

Berbamine is a promising natural compound with multifaceted anticancer properties. Its ability to induce apoptosis, cause cell cycle arrest, modulate key signal transduction pathways (such as JAK/STAT, NF-κB, and PI3K/Akt/mTOR), and affect autophagy, makes it a candidate for further investigation in various cancer models.

A calcium channel blocker.

Mechanistic relevance in cancer

Rank Pathway / Axis Cancer Cells Normal Cells TSF Primary Effect Notes / Interpretation
1 CaMKIIγ ↔ / ↓ R Collapse of stemness-survival signaling Best-supported central axis. In CML and MYC-driven hematologic models, berbamine directly targets the ATP-binding pocket of CaMKIIγ, with downstream suppression of leukemia stem/progenitor signaling.
2 c-Myc stability R-G Reduced oncogenic transcriptional drive Mechanistically linked to CaMKIIγ inhibition; relevant in lymphoma, leukemia, and gastric cancer models. This is one of the strongest industry-relevant translation axes.
3 JAK / STAT3 ↔ / ↓ R-G Reduced proliferation, survival, stemness, inflammation Frequently reported across cancer models and also coherent with the CaMKIIγ network in leukemia stem cells. Strong but somewhat model-dependent outside hematologic disease.
4 PI3K / Akt survival signaling R-G Growth inhibition and apoptosis sensitization Supported in lung and other solid-tumor systems; likely important but not as central as CaMKIIγ / c-Myc / STAT3.
5 MDM2 / p53 apoptotic control MDM2↓ p53↑ G Apoptosis induction Observed in CRC and lung cancer models. Relevance depends on p53 status; strongest where apoptotic machinery remains inducible.
6 Mitochondrial apoptosis ↑ caspase activation ↔ / dose-dependent injury G Execution-phase cell death A recurrent downstream phenotype rather than a unique upstream target. Fits with anti-proliferative and pro-apoptotic readouts in xenograft-backed studies.
7 Reactive oxygen stress secondary ↑ (context-dependent) ↔ / injury at higher concentration R-G Stress amplification and sensitization ROS increase is reported in some models and in derivative work, but it is better treated as secondary/contextual rather than the core unifying mechanism.
8 Migration / invasion / EMT programs G Anti-metastatic effect Supported in selected solid-tumor and nanoparticle-formulation studies. Useful translationally, but less central mechanistically than survival-axis suppression.
9 Clinical Translation Constraint Limited exposure matching n/a G Constrains systemic deployment Native berbamine has limited exposure durability and formulation dependence; several groups moved toward nanoparticles or derivatives to improve delivery, potency, and bioavailability.

P: 0–30 min
R: 30 min–3 hr
G: >3 hr
cycD1/CCND1, cyclin D1 pathway: Click to Expand ⟱
Source:
Type:
Also called CCND1 Gatekeeper of Cell-Cycle Commitment
The main function of cyclin D1 is to maintain cell cycle and to promote cell proliferation. Cyclin D1 is a key regulatory protein involved in the cell cycle, particularly in the transition from the G1 phase to the S phase. It is part of the cyclin-dependent kinase (CDK) complex, where it binds to CDK4 or CDK6 to promote cell cycle progression.
Cyclin D1 is crucial for the regulation of the cell cycle. Overexpression or dysregulation of cyclin D1 can lead to uncontrolled cell proliferation, a hallmark of cancer.
Cyclin D1 is often found to be overexpressed in various cancers.
Cyclin D1 can interact with tumor suppressor proteins, such as retinoblastoma (Rb). When cyclin D1 is overexpressed, it can lead to the phosphorylation and inactivation of Rb, releasing E2F transcription factors that promote the expression of genes required for DNA synthesis and cell cycle progression.
Cyclin D1 is influenced by various signaling pathways, including the PI3K/Akt and MAPK pathways, which are often activated in cancer.
In some cancers, high levels of cyclin D1 expression have been associated with poor prognosis, making it a potential biomarker for cancer progression and treatment response.
Scientific Papers found: Click to Expand⟱
5553- BBM,    A review on berbamine–a potential anticancer drug
- Review, Var, NA
P-gp↓, MDR1↓, survivin↓, NF-kB↓, TumCP↓, TumCCA↑, Apoptosis↑, SMAD3↑, P21↑, cycD1/CCND1↓, cMyc↑, Bcl-2↓, Bcl-xL↓, BAX↑, CaMKII ↓, ChemoSen↑, MMP2↓, MMP9↓, TIMP1↑, cl‑Casp3↑, cl‑Casp9↑, cl‑Casp8↑, cl‑PARP↑, IL6↓, ROS↑,
5551- BBM,    Berbamine Suppresses the Progression of Bladder Cancer by Modulating the ROS/NF-κB Axis
- vitro+vivo, Bladder, NA
tumCV↓, TumCP↓, TumCCA↑, P21↑, p27↑, cycD1/CCND1↓, cycA1/CCNA1↓, CDK2↓, EMT↓, TumMeta↓, p65↓, p‑p65↓, IKKα↓, NF-kB↑, ROS↑, NRF2↓, HO-1↓, SOD2↓, GPx1↓, Bax:Bcl2↑, TumVol↓,

Showing Research Papers: 1 to 2 of 2

* indicates research on normal cells as opposed to diseased cells
Total Research Paper Matches: 2

Pathway results for Effect on Cancer / Diseased Cells:


Redox & Oxidative Stress

GPx1↓, 1,   HO-1↓, 1,   NRF2↓, 1,   ROS↑, 2,   SOD2↓, 1,  

Core Metabolism/Glycolysis

cMyc↑, 1,  

Cell Death

Apoptosis↑, 1,   BAX↑, 1,   Bax:Bcl2↑, 1,   Bcl-2↓, 1,   Bcl-xL↓, 1,   cl‑Casp3↑, 1,   cl‑Casp8↑, 1,   cl‑Casp9↑, 1,   p27↑, 1,   survivin↓, 1,  

Kinase & Signal Transduction

CaMKII ↓, 1,  

Transcription & Epigenetics

tumCV↓, 1,  

DNA Damage & Repair

cl‑PARP↑, 1,  

Cell Cycle & Senescence

CDK2↓, 1,   cycA1/CCNA1↓, 1,   cycD1/CCND1↓, 2,   P21↑, 2,   TumCCA↑, 2,  

Proliferation, Differentiation & Cell State

EMT↓, 1,  

Migration

MMP2↓, 1,   MMP9↓, 1,   SMAD3↑, 1,   TIMP1↑, 1,   TumCP↓, 2,   TumMeta↓, 1,  

Barriers & Transport

P-gp↓, 1,  

Immune & Inflammatory Signaling

IKKα↓, 1,   IL6↓, 1,   NF-kB↓, 1,   NF-kB↑, 1,   p65↓, 1,   p‑p65↓, 1,  

Drug Metabolism & Resistance

ChemoSen↑, 1,   MDR1↓, 1,  

Clinical Biomarkers

IL6↓, 1,  

Functional Outcomes

TumVol↓, 1,  
Total Targets: 42

Pathway results for Effect on Normal Cells:


Total Targets: 0

Scientific Paper Hit Count for: cycD1/CCND1, cyclin D1 pathway
Query results interpretion may depend on "conditions" listed in the research papers.
Such Conditions may include : 
  -low or high Dose
  -format for product, such as nano of lipid formations
  -different cell line effects
  -synergies with other products 
  -if effect was for normal or cancerous cells

Filter Conditions: Pro/AntiFlg:%  IllCat:%  CanType:%  Cells:%  prod#:40  Target#:73  State#:%  Dir#:1
  wNotes=0  sortOrder:rid,rpid

 

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