GMP-relevant growth factors for regenerative medicine

APPLICATION WORKFLOWS

iPSC, organoid, tissue-differentiation & disease-model workflows.

Why fully-human — Differentiation is dose- and quality-sensitive: aglycosylated, endotoxin-bearing E. coli factors give variable potency and derail lineage commitment.
GMP regenerative protocols need glycosylated, endotoxin-free, lot-consistent factors.

Product candidates
  • Activin A
  • BMP4/BMP7
  • FGF2
  • EGF/KGF
  • HGF
  • VEGF-A
  • IGF-1
  • NGF/GDNF
  • Netrin-1 (NTN1)

STRATEGIC ROLE

A human secretory pathway, not a refolding line

Each factor is expressed in human iPSC-derived cells, so disulfide-rich, dimeric growth factors — Activin A / BMP dimers, the NGF / GDNF cystine-knot, glyco-VEGF — are folded, pro-processed and N-/O-glycosylated by native human machinery.
Endotoxin-free, serum-free and clone-free (no clonal drift); adenovirus-driven expression gives GMP-consistent lots no E. coli refold or CHO clone can reproduce.

Native human cytokines for immune-cell manufacturing

APPLICATION WORKFLOWS

T-cell, NK-cell, macrophage & dendritic-cell expansion, activation & differentiation.

Why fully-human — Cell-therapy potency tracks cytokine glycosylation & stability. E. coli cytokines aggregate, drift in specific activity and carry endotoxin — forcing costly re-validation. Manufacturing needs animal-free, native, drop-in cytokines.

Product candidates
  • IL-2
  • IL-7
  • IL-15
  • IL-21
  • IL-10/12
  • GM-CSF
  • SCF
  • FLT3L

STRATEGIC ROLE

Glycosylated, native-potency cytokines

Produced in human cells with authentic O-/N-glycosylation — O-glycosylated IL-2 as T-cells secrete it, glyco-GM-CSF / SCF — so they are non-aggregating, endotoxin-free and carry native specific activity & half-life.
Heterodimeric IL-12 (p35 / p40) is correctly assembled by multi-gene adenoviral co-expression, which single-chain E. coli systems cannot do.

Therapeutic proof asset

APPLICATION WORKFLOWS

Native replacement proteins for high-unmet-need indications — OA, COPD, hemorrhage, ARDS, hemolysis, sarcopenia.

Why fully-human — These are large, glycosylated, multimeric plasma proteins. Donor plasma is scarce and biohazardous, and CHO / E. coli miss their glycosylation & higher-order assembly — only authentic human proteoforms are active and safe.

Product candidates
  • PRG4 Dry Eye/Osteoarthritis
  • A2M Osteoarthritis
  • AAT COPD
  • Fibrinogen Hemorrhage
  • SP-D ARDS
  • Hemopexin Hemolysis
  • FST315 Sarcopenia

STRATEGIC ROLE

Complex glycosylation & higher-order assembly

Our human-cell hosts rebuild what conventional systems drop: mucin-type O-glycosylation (PRG4), correct Aα / Bβ / γ assembly of fibrinogen, collagen-domain multimerization of SP-D, and properly glycosylated AAT / A2M / hemopexin — via tissue-matched iPSC cells and multi-gene co-expression, yielding active, authentic human proteoforms.

Complex-protein showcase

APPLICATION WORKFLOWS

Hardest-target validation - HDL / lipoproteins, lipidated morphogens, membrane heme enzymes (cardiovascular, organoid, ADME-tox).

Why fully-human — They require lipidation, particle assembly and membrane / heme machinery absent in bacteria and CHO. No vendor offers functional native forms — a human-cell system is the only route.

Product candidates
  • rHDL (ApoA-I) Reconstituted HDL — multi-subunit lipoprotein assembly
  • Lipidated Wnt (Wnt3a/5a)Palmitoleoylated morphogens — lipid post-translational modification
  • CYP enzymes (CYP3A4/2D6)Membrane heme-cofactor enzymes — functional folding & activity

STRATEGIC ROLE

Lipidation, particle & membrane / heme machinery

Only a human-cell system carries the modifying enzymes these proteins need — PORCN palmitoleoylation of Wnt3a / 5a, ApoA-I lipidation into functional HDL particles, and heme insertion with correct membrane topology for CYP3A4 / 2D6.
NSiS co-expresses each protein with its modifying enzymes and chaperones by adenoviral multi-gene delivery.

High-quality whole antigen for antibody library

APPLICATION WORKFLOWS

Whole antigens to drive antibody-library discovery against intractable viral & glyco targets.

Why fully-human — Discovery fails when antigen glycans / epitopes are wrong. Insect / E. coli antigens misdisplay the glycan shield & conformational epitopes — campaigns need authentic human-glycosylated, natively folded whole antigens.

Product candidates
  • Lassa virus
  • Nipah virus
  • HIV-1 Env
  • EBV
  • HNK-1-bearing glycoproteins

STRATEGIC ROLE

Authentic human glyco-epitopes

Whole, full-length antigens carry native human N-/O-glycosylation — including the HNK-1 (3-sulfoglucuronyl) epitope via the human sulfotransferase repertoire — preserving conformational and glycan-shield epitopes (HIV-1 Env trimer, viral glycoproteins).
Multi-gene co-expression restores native oligomeric state for discovery-grade antigens.