Publications

Abstract
Background
Recombinant human NELL-1 (rhNELL-1) is a potent osteogenic protein with therapeutic potential in regenerative medicine. A stable formulation is essential to prevent aggregation during production, filling, storage, and clinical use.

Methodology
A four-stage rational formulation strategy was used: (1) identify intrinsic aggregation risks of rhNELL-1; (2) screen polysorbate- and cyclodextrin-based formulations to enhance colloidal and conformational stability; (3–4) test lead candidates under agitation, freeze/thaw, pH shifts, and elevated temperature. Analytical techniques included PEG challenge, differential scanning fluorimetry (DSF), isothermal chemical denaturation (ICD), and dynamic light scattering (DLS). Aggregation was assessed via visible particles (VP), opalescence, subvisible particles (SVP, Micro Flow Imaging), SDS-PAGE, and ultra-high performance size exclusion chromatography (UP-SEC).

Results
rhNELL-1 was prone to self-association via hydrophobic and electrostatic interactions. Polysorbate 20 (PS20) and hydroxypropyl beta cyclodextrin (HPB-LB-BCD) improved protein stability. PS20 markedly reduced VP and SVP formation. While HPB-LB-BCD alone did not further reduce SVP beyond PS20, it enhanced thermal stress resistance. PS20 was more effective under agitation.

Conclusions
Two lead formulations containing potassium phosphate/Tris buffer, sorbitol, PS20, and HPB-LB-BCD demonstrated strong resistance to aggregation under multiple stresses. PS20 mitigated interfacial stress, while HPB-LB-BCD suppressed solution-phase aggregation, especially at high temperatures. This systematic approach offers a framework for stabilizing other aggregation-prone proteins. Less |Related Solutions: μPulse^®

Antibody-drug conjugates (ADCs) are a promising therapeutic modality that enables the delivery of cytotoxic drugs to the target cells that express the corresponding antigen. However, the purification of ADCs while ensuring product safety, homogeneity, and stability is a challenging task due to their complex and fragile structure. Size exclusion chromatography (SEC), the conventional method for ADC purification, is time-consuming as it requires multiple column washes and equilibration steps. Moreover, subsequent formulation of ADCs, typically using dead-end filtration (DEF), further complicates the production workflow. We compared SEC+DEF with the µPulse®, a miniaturized and automated tangential flow filtration system, for purification and formulation of ADCs. Quality analysis revealed that both approaches were equally gentle as comparable drug-to-antibody ratios (DARs) and monomer purities were observed in the purified samples. Most importantly, both methods exhibited equivalent cleanup efficiency with a 99.8% reduction in free linker-drug concentration. The endotoxin loads comprised 0.11 EU mg-1 for the µPulse and 0.07 EU mg-1 for SEC+DEF, ensuring validation of the safe application of purified ADCs in living systems. However, the µPulse performed purification and formulation of ADCs simultaneously as compared to SEC+DEF, which required multiple manual interventions. Our results indicate that the µPulse is a gentle, single-step, and walk-away approach for the purification of ADCs. Less |Related Solutions: μPulse^®

Reinvigoration of tumor-reactive T-cells using co-stimulatory bispecific antibodies (bsAbs) targeting CD28 or CD137 is emerging as a promising therapeutic strategy. Conditional, tumor-specific recruitment can offer a necessary layer of control and specificity. We developed pH-selective CD28xVISTA bsAbs to act specifically within the acidic tumor microenvironment (TME), aiming for enhanced T-cell-mediated cancer cell killing while minimizing systemic T-cell activation and Cytokine Release Syndrome (CRS) risk. CD28 agonism by CD28xVISTA bsAbs relies on pH-selective engagement of VISTA, a protein robustly expressed on myeloid cells highly prevalent in most solid tumors. This modality avoids engagement of tumor-associated antigens (TAAs) with the potential to provide highly tumor specific activity with minimal on-target/off-tumor side effects.

We report the identification of a lead candidate with pH-dependent simultaneous engagement of both targets, and VISTA-dependent CD28 signaling in a reporter cell line. CD28xVISTA avidly bound VISTA-positive cells, and co-stimulation was shown in vitro by its ability to activate and expand T-cells and enhance T-cell mediated cancer cell killing in co-cultures of human PBMCs and cancer cells in the presence of a TAA-targeted anti-CD3 T-cell engager. Interestingly, our findings support both signaling in cis (between T-cell and cell displaying peptide-MHC complex) and in trans with stimulation occurring through CD28 clustering outside of the immune synapse. Our lead candidate displayed efficient tumor growth inhibition of human VISTA-expressing MC38 cells in a humanized CD28 syngeneic mouse model in combination with PD-1 blockade. Importantly, our CD28xVISTA bsAb showed no signs of superagonistic properties in several in vitro assays geared towards revealing induction of CRS. Our data supports clinical development in combination with anti-PD-1 or any TAA-targeted anti-CD3 T-cell engagers developed for solid tumors. Less |Related Solutions: μPulse^®

Abstract
Background:
Chronic inflammation and oxidative stress are central to the pathophysiology of Type 2 Diabetes Mellitus (T2DM), contributing to the progression of metabolic dysfunction and related complications.

Objective:
The aim of this study was to explore the therapeutic potential of combining hypoxia-preconditioned mesenchymal stem cell SH-MSC with alkaline water in a T2DM rat model.

Methods:
T2DM was induced in Wistar rats through a high-fat diet (HFD) followed by streptozotocin (STZ) administration. A total of 30 healthy male Wistar rats were randomly assigned to five groups: healthy control, T2DM, T2DM + Metformin, T2DM + SH-MSC, and T2DM + SH-MSC + alkaline water.

Results:
The combination of SH-MSC and alkaline water significantly reduced malondialdehyde (MDA) levels, a key indicator of lipid peroxidation, and suppressed the expression of p65 mRNA, a crucial component of the NF-κB signaling pathway. Notably, the most pronounced reduction in p65 mRNA expression was observed in the group receiving both SH-MSC and alkaline water, suggesting a synergistic effect in mitigating oxidative stress and inflammation.

Conclusion:
These findings highlight the potential of SH-MSC and alkaline water as a novel therapeutic strategy for alleviating T2DM. Less |Related Solutions: μPulse^®

Background High concentration protein formulation (HCPF) development needs to balance protein stability attributes such
as conformational/colloidal stability, chemical stability, and solution properties such as viscosity and osmolality.
Methodology A three-phase design is established in this work. In Phase 1, conformational and colloidal stability are measured by 384-well-based high-throughput (HT) biophysical screening while viscosity reduction screening is performed with HT viscosity screening. Collectively, the biophysical and viscosity screening data are leveraged to design the phase 2 of short-term stability study, executed using 96-well plates under thermal and freeze/thaw stresses. In phase 2, samples are analyzed by stability-indicating assays and processed with pair-wise Student’s t-test analyses to choose the final formulations. In phase 3, the final formulations are then confirmed through a one-month accelerated stability in glass vials.
Results Using a model antibody A (mAb-A), the initial HT screening successfully established the 384-well based platform.
A lead formulation was chosen from the second round based on statistical analyses and subsequently tested against the commercial
formulation of mAb-A as a control. Compared to the control, the lead formulation reduced the viscosity of mAb-A by 30% and decreased subvisible particles after thermal stress by 80%.
Conclusions HT biophysical screening in 384-well plates was demonstrated to effectively guide the rational design of a high-throughput stability screening study using 96-well plates. This platform enables the identification of a high concentration formulation within seven weeks within the first two phases of study that strategically balance stability with solution
properties, thus achieving a rapid development of HCPF. Less |Related Solutions: μPulse^®

Background: Chronic inflammation is central to the pathophysiology of Type 2 Diabetes Mellitus (T2DM), contributing to the progression of metabolic dysfunction characterized by hyperglycaemia and insulin resistance. This study aims to investigate the therapeutic potential of the hypoxic MSCs secretome (SH-MSCs) in reducing inflammation of a T2DM rat model. Methods: T2DM was induced in Wistar rats through a high-fat diet (HFD) followed by streptozotocin (STZ) administration. A total of 24 healthy male Wistar rats were randomly assigned to five groups: healthy control, T2DM, T2DM + metformin, T2DM + SH-MSCs. Results: SH-MSCs significantly reduced IL-18 mRNA expression, a key indicator of proinflammation, and suppressed the expression of AP-1 mRNA, a crucial proinflammatory transcription factor. Conclusion: These findings highlight the therapeutic potential of SH-MSCs as an alternative approach to alleviate inflammation in T2DM. Less |Related Solutions: μPulse^®

Background: Psoriasis is a chronic, immune-mediated skin disease that also has systemic manifestations. Case: In this report, we discuss our findings about a 47-years old psoriasis suffering male patient with a Psoriasis Area Severity Index (PASI) score of 10.8, treated with Wharton’s Jelly Mesenchymal Stem Cells-derived Secretome (S-MSCs). Remarkably, complete regression was recorded within a treatment period of a week only. Result: The patient demonstrated a decrease in PASI, from 10.8 to 3.2 after 1 infusion and followed by 4 intramuscular injections of S-MSCs. Bioactive factors secreted by MSCs, cytokines and growth factors, are very likely to be the principal molecules which play a vital role in inflammatory modulation and skin tissue regeneration. No serious adverse events were noted for the patient as a result of secretome infusion and intramuscular injection. Conclusion: This report demonstrates safety and promises to be an effective strategy using S-MSCs treatment for managing the psoriatic issue and, thus, may offer as an alternative approach to overcome the limitations of the cell-based therapy. Less |Related Solutions: μPulse^®

Metabolic syndrome (MetS) has become a global health challenge with several associated issues, such as obesity, insulin resistance, dyslipidemia, and hypertension. Important proteins such as Tumor Necrosis Factor-alpha (TNF-α) and Hypoxia Inducible Factor-2 alpha (HIF-2α) regulate the inflammatory process by inducing the expression of pro-inflammatory proteins. This study aims to determine the effect of administering SH-MSCSs on the expression of the TNF-α and Hypoxia Inducible Factor (HIF)-2α genes in the male Wistar rat model with Metabolic Syndrome. This research is an experimental study with a Post-test Only Control Group Design, using a total of 24 male Wistar rats divided into four groups: T1 (Healthy control), T2 (MetS + NaCl), T3 (MetS + administration of SH-MSCs dose 150 uL), and T4 (MetS + administration of SH-MSCs dose 300 uL). SH-MSCSs were administered intraperitoneally four times over 14 days. Adipose tissue TNF-α and HIF-2α gene expression were measured on day 15 using qRT-PCR. TNF-α and HIF-2α gene expression was significantly lower in T3 and T4, compared with the MetS control group (T2). Administration of SH-MSCs was able to reduce the expression of the Tumor Necrosis Factor (TNF-α) and Hypoxia Inducible Factor (HIF)-2α genes in fatty tissue in the male Wistar rat model with Metabolic Syndrome.This study presents a novel approach to treating MetS by demonstrating that the administration of SH-MSCs significantly reduces the expression of pro-inflammatory genes TNF-α and HIF-2α. This finding is beneficial for society as it suggests a potential newtherapeutic strategy that could mitigate inflammation and improve health outcomes for individuals suffering from MetS, thereby addressing a critical global health challenge. Less |Related Solutions: μPulse^®

Introduction: Type 2 diabetes mellitus (T2DM) is a prevalent form of diabetes that affects 90 - 95 % of all diabetic patients. Insulin sensitizers and insulin exogenous supply could temporarily ameliorate hyperglycaemia; however, they are accompanied by side effects. As a result, new approaches are required to address insulin resistance and regenerate beta cells simultaneously. The secretome of hypoxic mesenchymal stem cells (SH-MSCs) contains various growth factors and anti-inflammatory cytokines that could potentially enhance insulin resistance and improve pancreatic function. Objectives: In this study, we performed SH-MSCs infusion to ameliorate HFD-induced hyperglycaemia in T2DM rats. Methods: We created a T2DM rat model using a combination of a high-fat diet (HFD) and streptozotocin (STZ) administration. Then, we administered SH-MSCs injection at doses of 250 and 500 µL and assessed the therapeutic effects of SH-MSCs. We also investigated the potential underlying mechanisms involved. Results: The administration of SH-MSCs improved hyperglycemia in rats with T2DM. Infusion of SH-MSCs at 500 µL dose decreased homeostatic model assessment for insulin resistance (HOMA-IR). Histological analysis revealed that injection of SH-MSCs alleviated morphological damage of pancreas. SH-MSCs administration also inhibit the level of IL-6 and promote the expression of CD163 type 2 macrophage. Conclusion: The results of our study indicate that SH-MSCs have the potential to improve hyperglycemia and exert a protective effect on T2DM rats. Less |Related Solutions: μPulse^®

Objectives: In order to treat a rat model of rotator cuff rupture, this work concentrated on the expression
of TNMD and RUNX2, followed by rotator cuff repair and secretome-hMSCs.
Methods: A total of thirty 10-weeks-old male Sprague–Dawley rats were separated into five groups randomly, RC
on week 0, lesion treated with a rotator cuff repair and saline (RC + NaCl group, n = 6) for 2 and 8 weeks, and lesion
treated with a rotator cuff repair and secretome-hMSCs (RC + secretome-hMSC group, n = 6) for 2 and 8 weeks.
The supraspinatus and infraspinatus muscle–tendon units were obtained for histological and biomechanical
investigation at 0, 2 and 8 weeks following injury.
Results: The findings showed that, in comparison with the RC + NaCl group, secretome-hMSCs significantly
improved tendon repair by upregulating TNMD and RUNX2 expression and histology score.
Conclusion: Combining Secretome-hypoxia MSCs with RC healing may help rats with rotator cuff tears.
Level of evidence: IV Less |Related Solutions: μPulse^®

Background: Immunosuppression in sepsis is hypothesized to result from the increased
expression of the immune checkpoint molecules programmed death-1 (PD-1) and pro
grammed death ligand-1 (PD-L1). PD-1 and PD-L1 blockade therapies have been reported
to increase survival in septic animals. Currently, the interleukin (IL)-10 within mesenchymal
stem cell (MSC) secretome is known for its immunomodulatory capacity. Objective: To
study the effect of IL-10 within MSC secretome on the expression of immune check
points in the rat model of sepsis. Methods: We used 48 male Rattus norvegicus rats
in this research and divided them into four groups: sham (rats without sepsis induction
and treatment), control (sepsis-induced rats without treatment), T1 (sepsis-induced rats
treated with 150 µL of secreted IL-10 from MSC), and T2 (sepsis-induced rats treated
with 300 µL of secreted IL-10 from MSC). Forty-eight hours after sepsis induction, we
terminated the rats and collected the blood to examine the PD-1 and PD-L1 expression
levels. Results: We found a decrease in the relative expression of PD-1 in the septic rat
group given 150 µL and 300 µL of secreted IL-10 from MSC compared to the control
group, but the decrease was not significant. We also found a decrease in the relative
expression of PD-L1 mRNA in the septic rat group given 150 µL and 300 µL of secreted
IL-10 from MSC compared to the control group. Conclusion: Administering secreted IL-10
from MSC reduces the expression of PD-1 and PD-L1 in sepsis. These findings suggest
that MSC secretome can improve the immunosuppression in sepsis. Less |Related Solutions: μPulse^®

In sepsis, simultaneously elevated levels of pro-inflammatory cytokines and interleukin (IL)-10 indicate immune response dysregulation, increasing the mortality of the host. As mesenchymal stem cell (MSC) secretome is known to have immunomodulatory effects, we aim to assess the role of MSC secretome in the inflammatory mediators (NF-κB p65 and p50, TNF-α, IL-10) and the survival rate of a rat model of sepsis. In this study, forty-eight male Rattus norvegicus rats were divided into one sham group and three groups with sepsis induction: the control group and the sepsis-induced rat groups treated with 150 μL (T1) and 300 μL (T2) of secretome. The survival rate was observed per 6 h for 48 h and plotted using the Kaplan–Meier method. Compared to the control group, T2 showed a significant decrease in the relative expression of NF-κB and the serum TNF-α level, and a significant increase in the serum IL-10 level. Meanwhile, T1 showed a significant decrease in the serum TNF-α level compared to the control group. The Kaplan–Meier Log Rank test did not show significance in the distribution of survival between T1, T2, and the control group. However, from the 18th to the 36th hour, the survival rate of T2 was lower than the survival rate of the control group and T1, with a noticeable difference between T2 and the control group, as well as T1 at the 36th hour. At the 42nd hour, the survival rate of T2 was the same as the control group and remained lower than T1. In conclusion, MSC secretome regulated the inflammatory mediators in rat model of sepsis, with a dose of 150 μL being more effective. Less |Related Solutions: μPulse^®

Aim Type 1 diabetes mellitus (T1DM) is an autoimmune disease
characterized by the chronic inflammation of the pancreatic islets
of Langerhans. Hyperglycaemia leads to suppressed antioxidant
enzyme and increased inflammation in the pancreatic cell, resul
ting in pancreatic cell death. Hypoxic secretome mesenchymal
stem cells (HS-MSCs) are soluble molecules secreted by MSCS
that have the antiinflammation ability by secreting various cytoki
nes including IL-10 and TGF-β which potent as a promising the
rapeutic modality for T1DM. This study aims to investigate the
role of HS-MSCs in regulating superoxide dismutase (SOD) and
caspase-3 gene expression in T1DM model.
Methods Twenty male Wistar rats (6 to 8 weeks old) were rando
mly divided into four groups (sham, control, HS-MSCs 0.5 mL
and HS-MSCs 1 mL intraperitoneal treatment group). Streptozo
tocin (STZ) 60mg/kgBB was conducted once on day 1, HS-MSCs
0.5mL (T1) and HS-MSCs 1 mL (T2) were administrated intrape
ritoneally on day 7, 14, and 21 after STZ administration. The rats
were sacrificed on day 28; the gene expression of SOD and IL-6
was analysed by qRT-PCR.
Results This study showed that the ratio of SOD significantly
increased in HS-MSCs treatment associated with suppression of
IL-6 gene expression.
Conclusion HS-MSCs administration suppresses oxidative stre
ss and inflammation by up regulating SOD and inhibiting IL-6 to
control T1DM. Less |Related Solutions: μPulse^®

Gene therapies offer promising therapeutic alternatives for many disorders that currently lack efficient treatment options. Due to their chemical nature and physico-chemical properties, delivery of polynucleic acids into target cells and subcellular compartments remains a significant challenge. Adeno associated viruses (AAV) have gained a lot of interest for the efficient delivery of therapeutic single-stranded DNA (ssDNA) genomes over the past decades. More than a hundred products have been tested in clinical settings and three products have received
market authorization by the US FDA in recent years. A lot of effort is being made to generate potent recombinant AAV (rAAV) vectors that show favorable safety and immunogenicity profiles for either local or systemic administration. Manufacturing processes are gradually being optimized to deliver a consistently high product quality and to serve potential market needs beyond rare indications. In contrast to protein therapeutics, most rAAV products are still supplied as frozen liquids within rather simple formulation buffers to enable sufficient product shelf life, significantly hampering global distribution and access. In this review, we aim to outline the hurdles of rAAV drug product development and discuss critical formulation and composition aspects of rAAV
products under clinical evaluation. Further, we highlight recent development efforts in order to achieve stable liquid or lyophilized products. This review therefore provides a comprehensive overview on current state-of-the- art rAAV formulations and can further serve as a map for rational formulation development activities in the
future. Less |Related Solutions: μPulse^®

Genome analysis of Pyrobaculum calidifontis revealed the presence of α-glucosidase (Pcal_0917) gene. Structural analysis affirmed the presence of signature sequences of Type II α-glucosidases in Pcal_0917. We have heterologously expressed the gene and produced recombinant Pcal_0917 in Escherichia coli. Biochemical characteristics of the recombinant enzyme resembled to that of Type I α-glucosidases, instead of Type II. Recombinant Pcal_0917 existed in a tetrameric form in solution and displayed highest activity at 95 °C and pH 6.0, independent of any metal ions. A short heat-treatment at 90 °C resulted in a 35 % increase in enzyme activity. A slight structural shift was observed by CD spectrometry at this temperature. Half-life of the enzyme was >7 h at 90 °C. Pcal_0917 exhibited apparent Vmax values of 1190 ± 5 and 3.9 ± 0.1 U/mg against p-nitrophenyl α-D-glucopyranoside and maltose, respectively. To the best of our knowledge, Pcal_0917 displayed the highest ever reported p-nitrophenyl α-D-glucopyranosidase activity among the characterized counterparts. Moreover, Pcal_0917 displayed transglycosylation activity in addition to α-glucosidase activity. Furthermore, in combination with α-amylase, Pcal_0917 was capable of producing glucose syrup from starch with >40 % glucose content. These properties make Pcal_0917 a potential candidate for starch hydrolyzing industry. Less |Related Solutions: μPulse^®

Background:
Lower limb peripheral artery disease (PAD) is the main risk of diabetes mellitus which result to high mortality rate. Approximately, 50% of patients who receive several treatments have passed away or lost limbs at a year’s follow-up. Secretome of hypoxia mesenchymal stem cells (S-MSCs) contains several active soluble molecules from hypoxia MSCs (H-MSCs) that capable inducing anti-inflammatory and vascular regeneration in PAD.

Objective:
In this study, we investigated the therapeutic potential of S-MSCs in improving dynamic function and angiogenesis of PAD diabetic rats.

Methods:
The PAD was established by the incision from the groin to the inner thigh and distal ligation of femoral arteries in rats with diabetes. Rats were administered with 200 µL and 400 µL S-MSCs that successfully filtrated using tangential flow filtration (TFF) system based on various molecular weight cut-off categories intravenously. ELISA assay was used to analyze the cytokines and growth factors contained in S-MSCs. Tarlov score were examined at day 1, 3, 5, 7, 10 and 14. The rats were sacrificed at day 14 and muscle tissues were collected for immunohistochemistry (IHC) and gene expression analysis.

Results:
ELISA assay showed that S-MSCs provides abundant level of VEGF, PDGF, bFGF, IL-10 and TGFβ. In vivo administration of S-MSCs remarkably enhanced the Tarlov score. S-MSCs improved angiogenesis through enhancing VEGF gene expression and significantly increasing CD31 positive area in muscle tissue of PAD diabetic rats.

Conclusion:
Our findings suggest that S-MSCs could improves dynamic function and angiogenesis in PAD diabetic rats. Less |Related Solutions: μPulse^®