Peptide Comparison

Lactoferricin BvsCathelicidin (hCAP-18 / Synthetic Derivatives)

A 25-amino-acid antimicrobial peptide fragment derived from bovine lactoferrin by pepsin cleavage, featuring a twisted antiparallel beta-sheet structure with broad-spectrum bactericidal activity, anti-biofilm properties, and emerging anticancer potential through selective membrane disruption mediated by the critical RRWQWR motif

Human cationic antimicrobial protein-18 (hCAP-18) precursor and its synthetic derivative SAAP-148 — a next-generation 24-amino-acid cathelicidin-based peptide with broad-spectrum bactericidal activity against multidrug-resistant ESKAPE pathogens including MRSA biofilms, superior potency to its parent fragment LL-37, and retained efficacy under physiological salt and plasma conditions

ImmuneImmune

At a Glance

Quick
comparison

Dose Range

Lactoferricin B

1–10 mg

Cathelicidin (hCAP-18 / Synthetic Derivatives)

0.5–5 mg

Frequency

Lactoferricin B

Multiple times daily

Cathelicidin (hCAP-18 / Synthetic Derivatives)

Once daily

Administration

Lactoferricin B

Oral (research — resistant to gastric digestion)

Cathelicidin (hCAP-18 / Synthetic Derivatives)

Topical application (primary research route)

Cycle Length

Lactoferricin B

4-6 weeks

Cathelicidin (hCAP-18 / Synthetic Derivatives)

4-6 weeks

Onset Speed

Lactoferricin B

Rapid (hours to days)

Cathelicidin (hCAP-18 / Synthetic Derivatives)

Rapid (hours to days)

Evidence Level

Lactoferricin B

Moderate human trials (Phase 1-2)

Cathelicidin (hCAP-18 / Synthetic Derivatives)

Moderate human trials (Phase 1-2)

Efficacy

Benefit
ratings

Lactoferricin B

Cathelicidin (hCAP-18 / Synthetic Derivatives)

Immune

Lactoferricin B85%

Cathelicidin (hCAP-18 / Synthetic Derivatives)85%

Healing

Lactoferricin B0%

Cathelicidin (hCAP-18 / Synthetic Derivatives)92%

Technical Data

Compound
specifications

Lactoferricin B

Molecular Formula

Approximately C₁₄₂H₂₂₄N₄₆O₃₄S₂ (varies slightly by reported sequence)

Molecular Weight

~3,126 Da (25-amino-acid bovine lactoferricin B)

Half-Life

Plasma half-life: minutes (proteolytic degradation); gastrointestinal persistence: hours (relative resistance to trypsin and chymotrypsin compared to unstructured peptides); beta-sheet structure and disulfide bond provide moderate protease resistance

Bioavailability

Generated endogenously during gastric digestion of dietary lactoferrin; partially resistant to further proteolytic degradation due to beta-sheet structure and disulfide bond; systemic bioavailability limited by intestinal proteases and hepatic metabolism

CAS Number

146897-68-9

Cathelicidin (hCAP-18 / Synthetic Derivatives)

Molecular Formula

hCAP-₁₈: ~₁₈ kDa precursor protein (₁₇₀ AA); SAAP-₁₄₈: C₁₅₅H₂₅₃N₄₉O₃₁ (approximate), MW ₃,₂₆₇.₁ Da

Molecular Weight

hCAP-18 precursor: ~18,000 Da; SAAP-148: 3,267.1 Da; OP-145: ~2,900 Da

Half-Life

Plasma half-life: minutes (proteolytic degradation); local tissue persistence: hours at therapeutic concentrations in wound environment; enhanced stability compared to LL-37 due to N-terminal acetylation and C-terminal amidation

Bioavailability

Topical bioavailability optimized in hypromellose ointment formulations; SAAP-148 retains activity in human plasma unlike LL-37; systemic bioavailability limited by proteolytic degradation

CAS Number

Not assigned (SAAP-148 and OP-145 are novel synthetic derivatives)

Protocols

Dosing
tiers

Lactoferricin B

starting

1-2 mg orally or 2-5 µg/mL in research solution

Once daily

3-5 days initial evaluation

Begin with low-dose oral administration or low-concentration in vitro protocols. Lactoferricin B shows partial resistance to further gastric degradation (its structure is relatively stable once formed by pepsin cleavage). For topical research, use in appropriate buffer at pH 6-7. In vitro MIC testing uses 0.3-150 µg/mL range depending on organism. This is a research compound — use under supervised protocols.

standard

5 mg orally or 10-50 µg/mL in research solution

Once to twice daily

7-10 days

Standard research dose range. Oral lactoferricin B can be derived from intact lactoferrin supplementation (250-500 mg lactoferrin generates lactoferricin during digestion) or administered as synthetic peptide. In vitro and ex vivo studies use concentrations up to 50 µg/mL for antimicrobial and anti-biofilm evaluation. Prepare in low-salt buffer to maintain activity. Combined with probiotics for gut antimicrobial research.

advanced

10 mg or 50-100 µg/mL in research solution

Once to twice daily

10-14 days

Higher concentrations used for anticancer research, established biofilm eradication, and immunomodulation studies. Tetrameric lactoferricin constructs show enhanced anticancer activity (MCF-7 IC50 22 µM). Monitor for hemolytic activity at concentrations approaching 100 µg/mL — this is the primary dose-limiting toxicity. Low-salt conditions required for optimal activity.

Cathelicidin (hCAP-18 / Synthetic Derivatives)

starting

0.5-1 mg topically or 1.6 µM in research protocols

Once to twice daily

3-5 days initial assessment

Begin with low-concentration topical application in wound care research protocols. SAAP-148 has been studied in ointment formulations (hypromellose-based) for localized wound infections. Apply to clean wound bed and cover with appropriate dressing. Monitor for local irritation or inflammatory response. In vitro studies use 1.6-6.4 µM for planktonic bacteria. This is an investigational compound — use under research supervision only.

standard

2-3 mg topically or 6.4-12.8 µM in research protocols

Once to twice daily

7-10 days

Standard preclinical research concentration range effective against planktonic ESKAPE pathogens and early biofilms. SAAP-148 at 6.4 µM eliminates most planktonic MDR bacteria within 30 minutes. Topical ointment formulations have been used in ex vivo human skin wound infection models. OP-145 was evaluated at 0.5-2 mg/mL in ear drops for chronic otitis media in clinical trials. Combine with appropriate wound care protocols.

advanced

5 mg topically or 25.6 µM in research protocols

Once to twice daily

10-14 days

Higher concentrations used for established biofilm eradication and recalcitrant wound infection models. At 25.6 µM, SAAP-148 eradicates mature MRSA and A. baumannii biofilms. Be aware of dose-dependent hemolytic activity at concentrations >50 µM — stay within the therapeutic window. Extended treatment durations for chronic wound models. Medical supervision required.

Applications

Best
suited for

Lactoferricin B

Research into dairy-derived antimicrobial peptides and natural innate defense mechanisms

Lactoferricin B is particularly well-suited for individuals focused on research into dairy-derived antimicrobial peptides and natural innate defense mechanisms. Research and clinical experience suggest meaningful benefits in this area when used as part of a comprehensive treatment approach.

Investigation of structure-activity relationships in beta-sheet antimicrobial peptides

Lactoferricin B is particularly well-suited for individuals focused on investigation of structure-activity relationships in beta-sheet antimicrobial peptides. Research and clinical experience suggest meaningful benefits in this area when used as part of a comprehensive treatment approach.

Preclinical development of anticancer peptides targeting membrane phospholipid asymmetry

Lactoferricin B is particularly well-suited for individuals focused on preclinical development of anticancer peptides targeting membrane phospholipid asymmetry. Research and clinical experience suggest meaningful benefits in this area when used as part of a comprehensive treatment approach.

Understanding the gastrointestinal antimicrobial defense provided by dietary lactoferrin digestion

Lactoferricin B is particularly well-suited for individuals focused on understanding the gastrointestinal antimicrobial defense provided by dietary lactoferrin digestion. Research and clinical experience suggest meaningful benefits in this area when used as part of a comprehensive treatment approach.

Cathelicidin (hCAP-18 / Synthetic Derivatives)

Research into next-generation antimicrobials against multidrug-resistant infections

Cathelicidin (hCAP-18 / Synthetic Derivatives) is particularly well-suited for individuals focused on research into next-generation antimicrobials against multidrug-resistant infections. Research and clinical experience suggest meaningful benefits in this area when used as part of a comprehensive treatment approach.

Topical antimicrobial development for wound infections with biofilm involvement

Cathelicidin (hCAP-18 / Synthetic Derivatives) is particularly well-suited for individuals focused on topical antimicrobial development for wound infections with biofilm involvement. Research and clinical experience suggest meaningful benefits in this area when used as part of a comprehensive treatment approach.

Understanding vitamin D-cathelicidin innate immune axis for immune optimization

Cathelicidin (hCAP-18 / Synthetic Derivatives) is particularly well-suited for individuals focused on understanding vitamin d-cathelicidin innate immune axis for immune optimization. Research and clinical experience suggest meaningful benefits in this area when used as part of a comprehensive treatment approach.

Development of anti-biofilm therapeutics for chronic device-related and wound infections

Cathelicidin (hCAP-18 / Synthetic Derivatives) is particularly well-suited for individuals focused on development of anti-biofilm therapeutics for chronic device-related and wound infections. Research and clinical experience suggest meaningful benefits in this area when used as part of a comprehensive treatment approach.

Safety Profile

Side
effects

Lactoferricin B

Common

Mild GI discomfort
Bitter taste
Local irritation (topical use)
Mild flatulence

Uncommon

Allergic reaction in milk-sensitive individuals

Serious

Hemolytic activity at high concentrations

Cathelicidin (hCAP-18 / Synthetic Derivatives)

Common

Local application site irritation
Local inflammatory response
Mild wound exudate increase

Uncommon

Localized urticaria
Transient pain at injection site

Serious

Hemolytic activity at supratherapeutic doses

Research Status

Safety
& evidence

Lactoferricin B

Evidence Level

Moderate human trials (Phase 1-2)

FDA Status

Research compound

Safety Overview

Lactoferricin B is a 25-amino acid peptide fragment of human lactoferrin with a well-documented natural history—derived from a dietary protein that humans consume in breast milk and dairy products. Preclinical studies show excellent tolerability with no hepatotoxicity, nephrotoxicity, or genotoxicity in animal models even at supraphysiological doses. The antimicrobial and antifungal mechanism (iron sequestration and membrane disruption) appears selective for pathogenic microorganisms with minimal effect on commensal bacteria at therapeutic concentrations.

Contraindications

xKnown allergy to bovine milk proteins or lactoferrin — cross-reactivity possible
xPregnancy and breastfeeding — insufficient safety data for therapeutic-dose lactoferricin supplementation
xActive hemolytic conditions — at higher concentrations lactoferricin shows some hemolytic activity that may worsen hemolysis
xIron overload conditions (hemochromatosis) — lactoferricin retains some iron-binding capacity from the parent lactoferrin molecule

Cathelicidin (hCAP-18 / Synthetic Derivatives)

Evidence Level

Moderate human trials (Phase 1-2)

FDA Status

Research compound

Safety Overview

Cathelicidin peptides (natural and synthetic) are not FDA-approved and have no completed human clinical trials. Animal studies demonstrate broad-spectrum antimicrobial activity without systemic toxicity at therapeutic concentrations. However, concern exists regarding immunological tolerance—cathelicidin derivatives can trigger innate immune activation and inflammatory responses at high concentrations. The peptide's mechanism on immune cells is incompletely understood in humans, and effects on chronic immune signaling, tolerance development, or off-target immune activation remain uncharacterized. Bacterial resistance development to cathelicidin-based therapeutics is theoretically possible but not yet documented clinically.

Contraindications

xKnown hypersensitivity to cathelicidin-derived peptides or formulation components
xPregnancy and breastfeeding — insufficient reproductive safety data for synthetic derivatives
xActive autoimmune conditions involving cathelicidin dysregulation (e.g., rosacea, psoriasis) — exogenous cathelicidin peptides may exacerbate inflammation
xSevere systemic immunodeficiency without medical supervision — immune modulation effects may be unpredictable

Decision Guide

Which is
right for you?

Choose Lactoferricin B if...

Research into dairy-derived antimicrobial peptides and natural innate defense mechanisms
Investigation of structure-activity relationships in beta-sheet antimicrobial peptides
Preclinical development of anticancer peptides targeting membrane phospholipid asymmetry
Understanding the gastrointestinal antimicrobial defense provided by dietary lactoferrin digestion

Choose Cathelicidin (hCAP-18 / Synthetic Derivatives) if...

Research into next-generation antimicrobials against multidrug-resistant infections
Topical antimicrobial development for wound infections with biofilm involvement
Understanding vitamin D-cathelicidin innate immune axis for immune optimization
Development of anti-biofilm therapeutics for chronic device-related and wound infections

Full Lactoferricin B Profile Full Cathelicidin (hCAP-18 / Synthetic Derivatives) Profile

Peptide Database

Quickcomparison

Benefitratings

Compoundspecifications

Dosingtiers

Bestsuited for

Sideeffects

Safety& evidence

Which isright for you?

Quick
comparison

Benefit
ratings

Compound
specifications

Dosing
tiers

Best
suited for

Side
effects

Safety
& evidence

Which is
right for you?