Sunday, May 25, 2014

New Human Stress Selected Stem Cells

They Survive to Thrive

I am pleased to announce the addition of Stress Selected Stem Cells to our Cell Based Assays Offerings.

What makes these cells unique? They have:
•High potency, expansion rates and passaging.
•Low telomerase activity=low tumorigenesis properties
•High ability to migrate and differentiate to specific tissue types-High expression of migration/homing chemokines.

Image: Further morphology of these cultures is shown above as phase contrast images of two prominent clusters together with more firmly attached cells of classical mesenchymal morphology. This is day seven following exposure to stress. Scale bar is 50 mm.

We are offering these cells for 600 USD through June 30, 2014 (Save 150 USD)! Ordering options.

Check out our presentation learn more:
We can also conduct contract research to meet your specific requirements. To learn more you can contact me @612-801-1007 or pshuster@neuromics.com.

Tuesday, May 20, 2014

Neurons in 3-D

In Vivo Like Neurite Outgrowth Cultures

Culturing in 3-D requires potent Primary Neurons. Here researchers use our e18 Rat Cortical Neurons in developing their 3-D assays: Chandrasekhar R. Kothapallia, Peyman Honarmandib. Theoretical and experimental quantification of the role of diffusive chemogradients on neuritogenesis within 3D collagen scaffolds. Acta Biomaterialia. Available online 14 May 2014. http://dx.doi.org/10.1016/j.actbio.2014.05.009

Abstract: A critical challenge to regenerating close mimics of native axonal pathways under chronic neurodegenerative disease or injury conditions is the inability to stimulate, sustain and steer neurite outgrowth over a long distance, till they reach their intended targets. Understanding neurite outgrowth necessitates quantitative determination of the role of molecular gradients on growth cone navigation under dynamic physiological conditions. High-fidelity biomimetic platforms are needed to computationally and experimentally acquire and analyze spatio-temporal molecular gradient evolution and the growth cone response across multiple conditions along this gradient pathway. In this study, we utilized a simple microfluidic platform in which diffusive gradients were generated within a 3D porous scaffold in a defined and reproducible manner, and its characteristics (spatio-temporal gradient, steepness, diffusion time, etc.) precisely quantified at every specific location within the scaffold. Using this platform, we show that the cortical neurite response within 3D collagen scaffolds, at both the cellular and molecular level, is extremely sensitive to subtle changes in localized concentration and gradient steepness of IGF-1 within that region. This platform could also be used to study other biological processes such as morphogenesis and cancer metastasis, where chemogradients are expected to significantly regulate the outcomes. Results from this study might be of tremendous use in designing biomaterial scaffolds for neural tissue engineering, axonal pathway regeneration under injury or disease, and in formulating targeted drug delivery strategies.
Image: Neurons in 3-D Assay
Neuromics' provides many Stem and Primary Cell Assay Solutions including tools for 3-D Cultures. We also offer services studying the effects of small molecules and compounds on Stem Cell expansion, differentiation and migration. To learn more contact me at 612-801-1007 or pshuster@neuromics.com.

Sunday, May 11, 2014

Autism Spectrum Disorder (ASD) Custom Array Results

Blood Serum Levels and Key Markers

We have been testing immune/inflammatory response, oxidative stress and growth factor markers in ASD children from central Europe. Most showed high levels of  related cytokines and chemokines.

From our initial testing and published results, we have developed a custom Quantibody Array to test ASD children. The markers in this array are: BDNF, HSP-70, Leptin, RAGE and TGF-beta1.

Figure: Serum Levels of Key Markers in Tested ASD Children

Here's more on each marker:
  • BDNF is a protein involved in making healthy new neurons. This protein is dis-regulated in autism. It is shown to be decreased in some studies and increased in others. These variations could be a function of age. During brain development, BDNF regulates the birth and differentiation of brain cells, or neurons. Some of BDNF’s target cells, such as cortical interneurons, which transmit information between different layers of the brain cortex, have been implicated in autism. BDNF is also a regulator of brain growth, and children with the disorder tend to have abnormally large brains during early development. Vigorous exercise, for example, increases BDNF levels in blood and studies have linked this increase to growth of new healthy neurons in the hippocampus region of the brain. We found all ASD children tested showed low levels of BDNF. All had moderate to high levels of heavy metals and viral/bacterial pathogens. Most also had evidence of leaky blood brain barriers. Could this low level be due to consumption of BDNF demanded by the chronic need for neuro-repair or is genetic in origin or perhaps both?
  • HSP70 is strongly upregulated by heat stress and toxic chemicals, particularly heavy metals such as: aluminum, arsenic, cadmium, copper, mercury, etc. This upregulation in ASD could be linked to difficulty is in clearing toxins. Children with highest tested HSP70 levels also had the highest concentration of heavy metals. The 3 children with healthy levels have been undergoing ongoing treatment to clear metals.
  • Leptin modulates appetite and energy tough elevated levels of leptin present in cases of autism might be an important sign of immune processes, particularly those related to inflammation. It is also suggested leptin may be a link between autism and epilepsy that provides an avenue for novel or better management of autistic children with epilepsy. All were in the range of published healthy controls (mean=2065 pg/ml).
  • RAGE is hypothesised to have a causative effect in a range of inflammatory diseases such as diabetic complications, Alzheimer's Disease and even some tumors. In ASD, it is thought to be a master switch for chronic inflammation. Including in the brain. RAGE is a receptor for S100B so it is also elevated in ASD and is reflective of neurological damage. All showed elevated serum levels of rage.
  • TGF-beta1 is a protein that controls proliferation, cellular differentiation, and other functions in most cells. This control includes tissue repair in the nervous system. Decreased transforming growth factor beta1 in autism is a potential link between immune dysregulation and impairment in clinical behavioral outcomes. 6 of 8 of the children had low TGF-beta1 levels. Though the correlation between symptoms and behaviors is not conclusive.
We plan to significantly increase the samples of ASD children tested using this custom Quantibody Array. . 

Our ultimate goal is to use this array as a tool to determine the efficacy of therapies we are developing. Our goals is to develop natural products based therapies that are proven to activate stem cells. These cells could catalyze immune response modulation and tissue repair. The process is to first clear metals and pathogens, then treat with stem cell activators and test and fine tune treatments and test again. 

I will be posting results on an ongoing basis. I also welcome any and all comments. I am available for direct contact at pshuster@neuromics.com or 612-801-1007.

Thursday, May 01, 2014

Pancreatic Cancer Tumor Cell Assays

Providing Pancreatic Tumor Cells or Related Custom Assays

We are pleased to announce the addition of Pancreatic Tumor Cells to our Cell Based Assay offerings. We are also generating a wealth of internal data with our Tumor Cells and Cancer Associated Fibroblasts. We have now opened up our capabilities to Cancer Researchers via our new CRO services. These included customized assays for studying toxicity using compounds/small molecules. Here's an example:

In addition, we can do kinetic, live cell screens using these cells plus our hMSC and CAFs. To learn more call 612 -801-1007 e-mail me: pshuster@neuromics.com. We stand ready to serve you in a way that fits your specific requirements.