Validation of leaf enzymes in the detergent and textile industries: launching of a new platform technology

Kumari, Uma; Singh, Rahul; Ray, Tui; Rana, Seema; Saha, Prasenjit; Malhotra, Karan; Daniell, Henry

doi:10.1111/pbi.13122

Cited by 40 publications

(45 citation statements)

References 52 publications

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“…Instead, the enzymatic activities are contributed by other types of bacteria that are present but infrequent in the small intestine, such as Burkholderiales or Flavobacteriales. Therefore, Daniell et al have recently generated plants expressing cell wall degrading enzymes (24,25). Importantly, oral delivery of pectinase, endoglucanase, exoglucanase, and mannanase before feeding plants cells expressing therapeutic proteins almost doubled drug levels in plasma (46).…”

Section: Discussionmentioning

confidence: 99%

“…Commercial scale production in cGMP hydroponic facility has been demonstrated for several human blood proteins (16,20,24). Most importantly, methods have been developed to remove antibiotic resistance genes from chloroplast genomes of edible plant cells producing enzymes or biopharmaceuticals (20,24,25). Plant cell wall protects antigens from acid and enzymes in the stomach because they do not cleave Beta1-4, 1-6 linkages in plant cell wall polymers (17,26).…”

Section: Introductionmentioning

confidence: 99%

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Role of Small Intestine and Gut Microbiome in Plant-Based Oral Tolerance for Hemophilia

et al. 2020

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Fusion proteins, which consist of factor VIII or factor IX and the transmucosal carrier cholera toxin subunit B, expressed in chloroplasts and bioencapsulated within plant cells, initiate tolerogenic immune responses in the intestine when administered orally. This approach induces regulatory T cells (Treg), which suppress inhibitory antibody formation directed at hemophilia proteins induced by intravenous replacement therapy in hemophilia A and B mice. Further analyses of Treg CD4 + lymphocyte sub-populations in hemophilia B mice reveal a marked increase in the frequency of CD4 + CD25 − FoxP3 − LAP + T cells (but not of CD4 + CD25 + FoxP3 + T cells) in the lamina propria of the small but not large intestine. The adoptive transfer of very small numbers of CD4 + CD25 − LAP + Treg isolated from the spleen of tolerized mice was superior in suppression of antibodies directed against FIX when compared to CD4 + CD25 + T cells. Thus, tolerance induction by oral delivery of antigens bioencapsulated in plant cells occurs via the unique immune system of the small intestine, and suppression of antibody formation is primarily carried out by induced latency-associated peptide (LAP) expressing Treg that likely migrate to the spleen. Tolerogenic antigen presentation in the small intestine requires partial enzymatic degradation of plant cell wall by commensal bacteria in order to release the antigen. Microbiome analysis of hemophilia B mice showed marked differences between small and large intestine. Remarkably, bacterial species known to produce a broad spectrum of enzymes involved in degradation of plant cell wall components were found in the small intestine, in particular in the duodenum. These were highly distinct from populations of cell wall degrading bacteria found in the large intestine. Therefore, FIX antigen presentation and Treg induction by the immune system of the small intestine relies on activity of a distinct microbiome that can potentially be augmented to further enhance this approach.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Role of Small Intestine and Gut Microbiome in Plant-Based Oral Tolerance for Hemophilia

et al. 2020

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“…This research was continued when I became an independent faculty member at Washington State University, where isolated etio-chloroplasts were first used to express "foreign" genes, resulting in a breakthrough publication (Daniell and McFadden 1987), and we obtained the first and the oldest patent in the field of chloroplast genetic engineering (US patent # 5,693,507). Today, the chloroplast biotechnology field has grown to such an extent that there are regular Gordon Research Conferences on this topic, and research in this area has produced commercial (Daniell et al 2019;Kumari et al 2019) and low-cost drug development (Daniell et al 2016).…”

Section: Henry Daniell Recallsmentioning

confidence: 99%

From δ-aminolevulinic acid to chlorophylls and every step in between: in memory of Constantin (Tino) A. Rebeiz, 1936–2019

Govindjee

Briskin

Benning³

et al. 2020

Photosynth Res

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Constantin A. (Tino) Rebeiz, a pioneer in the field of chlorophyll biosynthesis, and a longtime member of the University of Illinois community of plant biologists, passed away on July 25, 2019. He came to the USA at a time that was difficult for members of minority groups to be in academia. However, his passion for the complexity of the biochemical origin of chlorophylls drove a career in basic sciences which extended into applied areas of environmentally friendly pesticides and treatment for skin cancer. He was a philanthropist; in retirement, he founded the Rebeiz Foundation for Basic Research which recognized excellence and lifetime achievements of selected top scientists in the general area of photosynthesis research. His life history, scientific breakthroughs, and community service hold important lessons for the field.

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“…After bioscouring with pectinase, they readily absorbed water in a few milliseconds, meeting industry requirements. Similarly, four newly launched leaf-enzyme products (endoglucanase, exoglucanase, lipase, mannanase) were also compared and validated with 15 commercial microbial-enzyme products for the detergent and textile industries (Kumari et al, 2019). Leaflipase/mannanase crude extracts removed chocolate or mustard oil stains effectively at both low and high temperatures.…”

Section: Enzyme Products Made In Leaves Launched By Phyllozymementioning

confidence: 99%

“…Learning valuable lessons from the failure of Chlorogen and unwilling to give up, I persuaded investors of the biotechnology start‐up PhylloZyme – who also have ownership in the textile and microbial‐enzyme business – to develop products that required minimal regulatory approv al . Most current genetically modified plant commercial products on the market are derived from seeds, and therefore, it was quite thrilling to launch a first leaf‐made protein product for commercial use developed by PhylloZyme in the summer of 2018 (Daniell et al ., 2019c; Kumari et al ., 2019). Dry leaf‐pectinases were validated with eight liquid commercial microbial‐enzyme products for textile or juice industry applications.…”

Section: Enzyme Products Made In Leaves Launched By Phyllozymementioning

confidence: 99%

From conception to COVID‐19: an arduous journey of tribulations of racism and triumphs

Daniell

2020

Plant Biotechnology Journal

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The densely wooded 800‐acre Madras Christian College (MCC) campus, India where I lived most of my early years, sparked my curiosity in plants. Observing the pitcher plant that captured insects, trees that produced fruits in the shape of a human skull, wild orchids, bright wildflowers, and dense vegetation amidst monsoon rains was exciting but also scary due to the wildlife, especially foxes and snakes. I was born in Salem, India, located at the foothills of mountains, tenth in a family of twelve, where my father was a high court judge.

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Validation of leaf enzymes in the detergent and textile industries: launching of a new platform technology

Cited by 40 publications

References 52 publications

Role of Small Intestine and Gut Microbiome in Plant-Based Oral Tolerance for Hemophilia

Role of Small Intestine and Gut Microbiome in Plant-Based Oral Tolerance for Hemophilia

From δ-aminolevulinic acid to chlorophylls and every step in between: in memory of Constantin (Tino) A. Rebeiz, 1936–2019

From conception to COVID‐19: an arduous journey of tribulations of racism and triumphs

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